Extrusions Coating
Ocean Extrusions Pvt. Ltd. coating and laminating expertise is second to none. With the industry’s most versatile equipment platforms, we deliver cost-effective extrusion coating packages to support construction, consumer products and packaging industries.
Our extrusion coating machinery fulfills even the most demanding flexible packaging, non-wovens, paper and board coating and laminating applications. This includes everything from laboratory-size systems for R&D to five-meter-wide systems for industrial materials.
We’re innovators in automatic profile control (APC), deckle and die options, multi-coating solutions, web handling, transfer unwinds and winders. Quality, efficiency and value enable us to improve coating and laminating processes for customers worldwide.
Feature :-
Wide range of extrusion lines suitable for Woven / Non Woven Fabric Lamination, Paper Lamination & BOPP sandwich lamination with LDPE or PP material
High productivity with less power consumption
Coating output starting from 50 Kgs/Hr to upto 300 Kgs/hr
Smooth Feed type Nitrided Barrels
Simple or Barrier type Nitrided Screws
Helical gear box with inbuilt thrust bearing
Lever type filter changer
Uniquely designed coat hanger type ‘T’ die ensuring uniform flow distribution
Unwinder unit with load cell based auto web tension control
Heavy duty safety chucks with airshafts
Web aligner unit
Lamination unit forward-reverse & up-down arrangements
Center type, surface type or turret type rewinding options to suit different requirements
High density band type and cartridge type heaters
SSR based all heating zones
Product Details:
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Material | Mild Steel |
Voltage | 220-315 Volt |
Phase | Single Phase |
Extrusions Coating Lamination Machine:
For Coating thin layer of polyolefin's (Mainly LDPE / PP) on substrates like Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabrics, Jute, Non Woven Fabrics, etc. Up to 5200 mm Web width applications. Tandem Lamination Plant for coating Circular Woven Fabrics, for producing multi layer laminates up to 5 layers along with the various substrates like Paper, Aluminum Foil, Polyester film etc.
Lamination line material adds superior protection for products when they are packed. Extrusion coating lamination plant is a suitable solution to produce very slim lining layers made of PP, LDPE. This lining material will them be added to packaging components like woven sacks, giant size bags, aluminum foil, cotton and jute fabric bags, etc. Ocean Extrusions is a leading extrusion coating lamination plant manufacturer and our lamination plant will remain a revenue making investment as the machine components are made of reliable and quality materials.
Extrusion Coating Lamination plant
Extrusion coating lamination machine, plant, line woven sack, bopp, India Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabric extrusion coating lamination machine line plant for bopp lamination coating machine for paper For Coating thin layer of polyolefin's (Mainly LDPE / PP) on substrates like Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabrics, Jute, Non Woven Fabrics, etc. Up to 5200 mm Web width applications. Tandem Lamination Plant for coating Circular Woven Fabrics, for producing multi layer laminates up to 5 layers along with the various substrates like Paper, Aluminum Foil, Polyester film etc. Lamination line material adds superior protection for products when they are packed. Extrusion coating lamination plant is a suitable solution to produce very slim lining layers made of PP, LDPE. This lining material will them be added to packaging components like woven sacks, giant size bags, aluminum foil, cotton and jute fabric bags, etc. Ocean Extrusions is a leading extrusion coating lamination plant manufacturer and our lamination plant will remain a revenue making investment as the machine components are made of reliable and quality materials.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Material | Mild Steel |
Voltage | 220-315 Volt |
Phase | Single Phase |
Packaging Type | Cartons |
Extrusions Coating Lamination Machine:
For Coating thin layer of polyolefin's (Mainly LDPE / PP) on substrates like Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabrics, Jute, Non Woven Fabrics, etc. Up to 5200 mm Web width applications. Tandem Lamination Plant for coating Circular Woven Fabrics, for producing multi layer laminates up to 5 layers along with the various substrates like Paper, Aluminum Foil, Polyester film etc.
Lamination line material adds superior protection for products when they are packed. Extrusion coating lamination plant is a suitable solution to produce very slim lining layers made of PP, LDPE. This lining material will them be added to packaging components like woven sacks, giant size bags, aluminum foil, cotton and jute fabric bags, etc. Ocean Extrusions is a leading extrusion coating lamination plant manufacturer and our lamination plant will remain a revenue making investment as the machine components are made of reliable and quality materials.
Extrusion Coating Lamination plant
Extrusion coating lamination machine, plant, line woven sack, bopp, India Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabric extrusion coating lamination machine line plant for bopp lamination coating machine for paper For Coating thin layer of polyolefin's (Mainly LDPE / PP) on substrates like Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabrics, Jute, Non Woven Fabrics, etc. Up to 5200 mm Web width applications. Tandem Lamination Plant for coating Circular Woven Fabrics, for producing multi layer laminates up to 5 layers along with the various substrates like Paper, Aluminum Foil, Polyester film etc. Lamination line material adds superior protection for products when they are packed. Extrusion coating lamination plant is a suitable solution to produce very slim lining layers made of PP, LDPE. This lining material will them be added to packaging components like woven sacks, giant size bags, aluminum foil, cotton and jute fabric bags, etc. Ocean Extrusions is a leading extrusion coating lamination plant manufacturer and our lamination plant will remain a revenue making investment as the machine components are made of reliable and quality materials.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Frequency | 50 Hz |
Material | Mild Steel |
Phase | Single Phase |
Power Source | Electric |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Frequency | 50 Hz |
Material | Mild Steel |
Surface Finishing | Coated |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Frequency | 50/60 Hz |
Material | Mild Steel |
Phase | Single Phase |
Voltage | 315 Volt |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Material | Mild Steel |
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Voltage | 315 Volt |
Phase | Singel Phase |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Material | Mild Steel |
Packaging Type | Cartons |
Frequency | 50 Hz |
Phase | Single Phase |
Power Source | Electric |
Number of Drive | 5 |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Surface Finish | Coated |
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Material | Mild Steel |
Phase | Single Phase |
Power Source | Electric |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Machine Type | Adhesive Lamination |
Automation Grade | Semi- Automatic |
Phase | Single Phase |
Power Source | Electric |
Body Material | Mild Steel |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Material | Mild Steel |
Phase | Single Phase |
Frequency | 50 Hz |
Power Source | Electric |
Additional Information:
Product Details:
Minimum Order Quantity | 1 Piece |
Machine Type | Automatic |
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Material | Mild Steel |
Voltage | 220 Volt |
Phase | Single Phase |
Woven Sack Extrusion Coating Lamination Plant:
Additional Information:
Product Details:
Minimum Order Quantity | 1 Piece |
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Material | Mild Steel |
Voltage | 315 Volt |
Phase | Single Phase |
Laminating Process for Paper Coating Extrusion Lamination Machine:
Process Description for Paper Coating Extrusion Lamination Machine:
Applications of Paper Coating Extrusion Lamination Machine:
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Brand | Ocean Rotoflex |
Automation Grade | Semi- Automatic |
Packaging Type | Box |
Power Source | Electric |
Frequency | 50/60 Hz |
Sr. | Plant Model | Screw Size (mm) | Screw L/D | Feed Section Type | Die Width (mm) | Max Working Width (mm) | Coating Thickness Range in Micron | Max Line Speed ML/Min. | Max Prod. Capacity (KG/Hour) | Total Connected Load (KW) | Main Drive (HP) | Polymer To be Processed | Polymer To be Processed |
1 | OESL 760 | 70X2 | 28:1 | SMOOTH FEED | 900X2 | 760 | 20 TO 75 | 100 | 80to90 | 12KW | 30x2 | LDPE/PP | 24x35x12 |
2 | OESL 760 | 80x2 | 28:1 | SMOOTH FEED | 900x2 | 760 | 20 TO 75 | 150 | 140 to180 | 150KW | 50x2 | LDPE/PP | 24x35x12 |
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Material | Mild Steel |
Voltage | 220 Volt |
Phase | Single Phase |
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Brand | Ocean Rotoflex |
Power Source | Electric |
Voltage | 240-340 V |
Machine Speed | 0 to 180m/min |
Strip Widths | 150 mm to 1500 mm |
Lamination Machine Adhesive to meet diverse requirements of our clients in the best possible manner, we are manufacturing, exporting & supplying a comprehensive assortment of Coating Machines - BOPP Adhesive Coating Machine. Offered machines are manufactured by our skilled professionals using the best technology to render maximum clients' satisfaction. In order to meet variegated demands of clients, this is made available in various customized options. Besides, clients can avail this product at market-leading prices. The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Features of Lamination Machine Adhesive:
Additional Information:
Product Details:
Packaging Type | Cartons |
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Material | Mild Steel |
Phase | Single Phase |
Power Source | Electric |
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Frequency | 50 Hz |
Material | Mild Steel |
Voltage | 315 Volt |
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Voltage | 315 Volt |
Phase | Single Phase |
Power Source | Electric |
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Material | Mild Steel |
Voltage | 315 Volt |
Phase | Three Phase |
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Brand | Ocean Rotoflex |
Voltage | 240-340 V |
Power Source | Electric |
Coil weight | 0.5 MT to 10 MT |
Additional Information:
Product Details:
Minimum Order Quantity | 1 Unit |
Brand | Ocean Rotoflex |
Screw Size | 65 - 90 ( mm ) |
Coating Thickness | 10 - 75 (Micron) |
Body Material | Mild Steel |
Power Consumption | 52 - 145 ( kw ) |
Product Details:
Material | Mild Steel |
Voltage | 315 Volt |
Packaging Type | Cartons |
Brand | Ocean Rotoflex |
Power Source | Electric |
Extrusions Coating Lamination Machine:
For Coating thin layer of polyolefin's (Mainly LDPE / PP) on substrates like Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabrics, Jute, Non Woven Fabrics, etc. Up to 5200 mm Web width applications. Tandem Lamination Plant for coating Circular Woven Fabrics, for producing multi layer laminates up to 5 layers along with the various substrates like Paper, Aluminum Foil, Polyester film etc.
Lamination line material adds superior protection for products when they are packed. Extrusion coating lamination plant is a suitable solution to produce very slim lining layers made of PP, LDPE. This lining material will them be added to packaging components like woven sacks, giant size bags, aluminum foil, cotton and jute fabric bags, etc. Ocean Extrusions is a leading extrusion coating lamination plant manufacturer and our lamination plant will remain a revenue making investment as the machine components are made of reliable and quality materials.
Extrusion Coating Lamination plant
Extrusion coating lamination machine, plant, line woven sack, bopp, India Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabric extrusion coating lamination machine line plant for bopp lamination coating machine for paper For Coating thin layer of polyolefin's (Mainly LDPE / PP) on substrates like Woven Sacks, Tarpaulins, Jumbo Bags, BOPP Film, Paper, Aluminum Foil, Polyester Film, Cotton Fabrics, Jute, Non Woven Fabrics, etc. Up to 5200 mm Web width applications. Tandem Lamination Plant for coating Circular Woven Fabrics, for producing multi layer laminates up to 5 layers along with the various substrates like Paper, Aluminum Foil, Polyester film etc. Lamination line material adds superior protection for products when they are packed. Extrusion coating lamination plant is a suitable solution to produce very slim lining layers made of PP, LDPE. This lining material will them be added to packaging components like woven sacks, giant size bags, aluminum foil, cotton and jute fabric bags, etc. Ocean Extrusions is a leading extrusion coating lamination plant manufacturer and our lamination plant will remain a revenue making investment as the machine components are made of reliable and quality materials.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Voltage | 315 Volt |
Automation Grade | Automatic |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Automation Grade | Automatic |
Material | Mild Steel |
Phase | Single Phase |
Power Source | Electric |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Material | Mild Steel |
Voltage | 315 Volt |
Packaging Type | Cartons |
Frequency | 50 Hz |
Phase | Single Phase |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Material | Mild Steel |
Voltage | 315 Volt |
Power Source | Electric |
Surface Finish | Coated |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Material | Mild Steel |
Brand | Ocean Rotoflex |
Frequency | 50 Hz |
Phase | Single Phase |
Power Source | Electric |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Material | Mild Steel |
Voltage | 315 Volt |
Packaging Type | Cartons |
Automation Grade | Automatic |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Material | Mild Steel |
Voltage | 315 Volt |
Frequency | 50 Hz |
Phase | Single Phase |
Adhesive Coating Lamination Plant:
To laminate silicon paper (liner) and hologram film together by adhensive. Adehensiver (usually, solvent based) is same adhensive for normal self-sticker. The machine is very simple and lamination machine which laminates aluminum metalllized PET film(holographic sensitive pressure label film) together with silicon paper(liner) by adhensive. It's simple and easily run machine made just for our holographic sticker lamination.
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
Product Details:
Brand | Ocean Rotoflex |
Material | Mild Steel |
Voltage | 315 Volt |
Packaging Type | Cartons |
Power Source | Electric |
Extrusion-based coating/laminating and adhesive-based film laminating are different manufacturing techniques a converter can use to make a composite construction. The physical properties and performance characteristics of flexible packaging made by extrusion coating and laminating can be identical to that made by film laminating. Many of the major components of the final constructions are also the same. So which technique should be used for a particular product package? The decision is not an easy one, with equipment availability, run length, polymer specifications, and manufacturing efficiencies some of the major variables in this equation.The performance properties of extruded and adhesive-laminated structures are frequently dependent upon the types of polymeric, adhesive and surface treatment/priming ingredients combined to deliver the intended package performance. Multiple performance criteria such as mechanical properties, gas and moisture barrier properties, sealability, printability and cost will be integrated to satisfy the multiple performance properties of both rigid and flexible packages. Many polymeric materials are thermodynamically incompatible due to differences in their chemical make-up. Combining these materials can create the potential for phase separation and structural degradation. The key is to create a heterogeneous layering within an extrusion or adhesive lamination process so performance properties will not degrade over time.
Adhesive laminates can be made by dry bonding, wet bonding, UV/EB curing and by hot melt adhesion processes. Extrusion laminates are constructed by extruding a thin tie-layer of a plastic material to bond together two dissimilar materials, such as a polymer film, paper or foil. Furthermore, coextruded materials are produced by extruding several polymer layers simultaneously and then pressing/cooling them together. Incompatible layers are laminated together using a thermoplastic adhesive as a tie layer. Eight layers or greater can be produced to optimize barrier, material thickness, weight and cost performance parameters.
Surface modification techniques can also be employed to for low polarity polymeric films and other based substrates to improve structural performance. These methods can include the application of roll coatings (polymers, lacquers, primers), coextrusion, immersion, and plasma treatments. Solvent and water-based barrier coatings are common, as are dry coatings such as varnishes cured by heat or oxidation. Chemical surface treatments, vacuum plasma depositions, and specifically vapor-deposited oxides and nitrides are also employed to improve packaging performance.
Additional Information:
4.3/5
Reviewed by 31 Users
Most Relevant Reviews