The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems
The packing system materials industry is distinguished from other industries by its ramifications and overlaps. This is due, of course, to the multiplicity of types of its products in different shapes, sizes, colors and specifications according to the desired purpose. Some of them are as follows:
First paper and cardboard:
Paper is considered one of the most important materials for packaging systems and includes a wide range of items, each of which differs from the other in its properties, advantages and use:
A- (Unbleached) Kraft: It is one of the strongest packing systems papers, the cheapest relatively, the largest in size in use, and the most important use:
1- Manufacturing bags for consumer and industrial purposes (cement, fertilizer, gypsum and lime filling systems).
2- Manufacture of glued paper boxes. (filling systems)
3- Manufacturing corrugated cardboard boxes. # filling systems
B- (kraft) bleached: and its most important uses are in the case of lining it (with polyethylene and aluminum foil) together to manufacture cheap packages for liquid products such as milk, fruit juice, etc., and it is characterized by its ability to print luxuriously.# filling systems
C- (Glassine) oil-resistant paper: Glassine is a highly glossy paper, and the surface is smooth like glass. It can be opaque, translucent, or colored. These papers are either used as they are after waxing, printing, granulating, or lining them with similar or different papers. These papers are usually made not to prevent the permeability of water vapor, but by saturation or coverage they acquire this property in addition to that they do not allow their nature to permeate gases and can be made neutral and therefore, through an appropriate combination of these properties on paper with excellent characteristics, the most important of which is preventing (rancidity) from materials fatty. # filling systems
D- Parchment paper Parchment paper is made by passing Unsized Paper in a concentrated solution of sulfuric acid, washing it and neutralizing it, then going through the drying stage. The boiling point is highly resistant to fats and oils, and its color by nature does not prevent the leakage of water vapor, but it gains this property easily when it is waxed. The hardness of this paper can be overcome by treating it with pure glycerin. The solid, fluff-free surface of this paper makes it suitable for treatment (with silicones) for the production of paper (Release Paper). It has many industrial uses and is used to line pie dishes to ensure that these pies do not stick to it after baking. It is also used successfully for wrapping fish, meat, vegetable and animal fats. # filling systems
Second: cellophane:
Cellophane is considered one of the most successful materials for packing systems and comes in third place after paper and polyethylene in terms of use. Among its most important properties are:
- Shiny shiny back (filling systems)
– Resistance to penetration of gas and moisture (filling systems)
High printability (filling systems)
It is successfully used on high-speed filling systems machines (filling systems).
– The possibility of manufacturing it to meet different needs. Moisture resistance in different degrees, heat-adhesive, coloring, and so on (packing systems).
– The possibility of using it with other types of packing systems materials, whether by sticking, extruding, covering (with polyethylene or saran) or other materials. (filling systems)
Third: the glass:
Glass is used in large quantities because of its characteristics as follows: It does not react chemically with the internal contents, especially the neutral glass used in packaging medicines. High transparency, and thus goods with attractive appearance and colors can be displayed successfully. # filling systems
Not being easily scratched. Materials packaged in glass have a long shelf life. # filling systems
Glass containers are reusable after washing them. # filling systems
Dark colored glass gives the goods packaged inside it sufficient protection from light. # filling systems
Fourth, metal packaging:
Tin containers have come a long way in food packaging since Nicholas Apper succeeded in the year 1809 in making preserved food, and the containers have several functions. # filling systems
The protection differs from one commodity to another, but differs with regard to one commodity according to the conditions of its storage, transportation and sale. Protection is divided:
A- Mechanical protection: In the sense that the commodity reaches the consumer intact. # filling systems
B- Natural protection: in the sense that if there are odors or gases that affect the contents (packing systems)
The packaging must prevent these effects. (filling systems)
C- Chemical protection: in the sense of preventing interaction between the package and the packaged material. (filling systems)
Fifth: Plastics (plastics): (filling systems)
The types of plastics used in the field of packaging systems cannot be limited to several considerations, the most important of which is the economic considerations with which the producer tends, in front of the pressure of competition, to use the best advanced alternatives to the materials of traditional packaging systems represented in paper, cardboard, glass and metal. (filling systems)
Likewise, the ability of the plastics industries to synthesize and develop new multiple (polymers) to meet the needs of advanced packaging systems. The plastic family consists of a group of industrial resins, including (10 to 20) types that are used today successfully in the manufacture of packaging systems. The size or ease of use or the multiplicity of images and varieties that can be obtained or because of its cheap price. Other types used in filling systems are (polystyrene, polyvinyl chloride, polypropylene, ethylene vinyl acetate, polyfemyldene chloride, cellulosic, nylon and acrylic compounds). Plastics are usually divided on the basis of their vulnerability. By heat, if it can be melted by heat and hardened by cold, then re-melted by heat, like all the types mentioned above, then it is called “thermoplastic”, but if it is fused by heat only once, then it is thermoset, such as urea formaldehyde, phenol-formaldehyde, and meladene-formaldehyde. # filling systems