Polylactic acid (PLA) derived from renewable resources, such as corn starch and cassava. It is 100% biodegradable and compostable and becomes water and carbon dioxide finally after biodegradation process under composting conditions in 90 days. It conforms to ASTM D6400:2004 and DIN EN 13432:2000-12.
PLA Shrink film definitely benefits environment protection. To avoid serious pollution caused by traditional Polyolefin Shrink film, PLA Shrink film is the best alternative and sustainable. It can replace traditional Polyolefin Shrink film with same packing application.
This film runs well on most of shrink package systems.

● 100% Biodegradable and Compostable
● Safe for environment and body
● Food grade
● High Oxygen transmission rate
● High Water Vapor transmission Rate
● Excellent barrier for flavor and aroma
● Impressive gloss and clarity
● High stiffness for printing
25 micron
| Item | Unit | Test Method | Value |
|---|---|---|---|
| Thickness | micron | ASTM D374 | 25 |
| Tensile strength MD | MPa | ASTM D882 | 107 |
| Tensile strength TD | MPa | ASTM D882 | 137 |
| Elongation MD | % | ASTM D882 | 118 |
| Elongation TD | % | ASTM D882 | 88 |
| Heat Shrinkage MD | % | 100℃/10 seconds | 65.1 |
| Heat Shrinkage TD | % | 100℃/10 seconds | 73.3 |
| Haze | % | ASTM D1003 | 2.5 |
| Transmittance | % | ASTM D1003 | 94.3 |
| Gloss | % | GB/T 8807(45°) | 93 |
| C.O.F(IN/OUT) | μS/μK | ASTM D1894E | 0.57/0.41 |
| Wetting Tension | mN/m | ASTM D2578 | 42 |
| Sealing Strength | N/15mm | 85℃/135kpa/2S | 6.62 |
Polylactic acid (PLA) derived from renewable resources, such as corn starch and cassava. It is 100% biodegradable and compostable and becomes water and carbon dioxide finally after biodegradation process under composting conditions in 90 days. It conforms to ASTM D6400:2004 and DIN EN 13432:2000-12.
BOPLA film is developed to replace traditional BOPP film and PET with same packing application.

● 100% Biodegradable and Compostable
● Safe for environment and body
● Excellent clarity
● Impressive gloss
● High stiffness for printing
● Twistable
25 micron
food packaging and candy (twisted) wrapping, salad bag, bread bag, flower wrap, cup/Tray lid, magazine pouch, bakery bag, paper lamination, window films for envelopes
| Item | Unit | Test Method | Value |
|---|---|---|---|
| Thickness | micron | ASTM D374 | 25 |
| Tensile strength MD | MPa | ASTM D882 | 110 |
| Tensile strength TD | MPa | ASTM D882 | 134 |
| Elongation MD | % | ASTM D882 | 134 |
| Elongation TD | % | ASTM D882 | 133 |
| Heat Shrinkage MD | % | 100℃/10 seconds | 3.1 |
| Heat Shrinkage TD | % | 100℃/10 seconds | 0.1 |
| Haze | % | ASTM D1003 | 1.8 |
| Transmittance | % | ASTM D1003 | 92.9 |
| Gloss | % | GB/T 8807(45°) | 91 |
| C.O.F(IN/OUT) | μS/μK | ASTM D1894E | 0.43/0.43 |
| Wetting Tension | mN/m | ASTM D2578 | ≥44 |
| Sealing Strength | N/15mm | 85℃/135kpa/2S | 3.98 |
Polylactic acid (PLA) derived from renewable resources, such as corn starch and cassava. It is 100% biodegradable and compostable and becomes water and carbon dioxide finally after biodegradation process under composting conditions in 90 days. It conforms to ASTM D6400:2004 and DIN EN 13432:2000-12.
PLA adhesive tape is made with BOPLA film and biodegradable adhesive to replace traditional BOPP tapes with same packing application and to prevent from serious pollution.

● 100% Biodegradable and Compostable
● Safe for environment and body
● Excellent clarity
● Impressive gloss
● High stiffness for printing
25 micron
Polylactic acid (PLA) derived from renewable resources, such as corn starch and cassava. It is 100% biodegradable and compostable and becomes water and carbon dioxide finally after biodegradation process under composting conditions in 90 days. It conforms to ASTM D6400:2004 and DIN EN 13432:2000-12.
PLA Label film is the best alternative to replace traditional PVC Label film and PET Label film.

● 100% Biodegradable and Compostable
● Safe for environment and body
● Excellent shrinkage of 76%
● Impressive gloss and clarity
● High stiffness with corona treatment for printing
20-90 micron
| Item | Unit | Test Method | Value |
|---|---|---|---|
| Thickness | micron | ASTM D374 | 50 |
| Tensile strength MD | MPa | ASTM D882 | 64 |
| Tensile strength TD | MPa | ASTM D882 | 146 |
| Elongation MD | % | ASTM D882 | 4 |
| Elongation TD | % | ASTM D882 | 96 |
| Heat Shrinkage MD | % | 100℃/10 seconds | 15.0 |
| Heat Shrinkage TD | % | 100℃/10 seconds | 76.2 |
| Haze | % | ASTM D1003 | 1.3 |
| Transmittance | % | ASTM D1003 | 94.3 |
| Gloss | % | GB/T 8807(45°) | 94 |
| C.O.F(IN/OUT) | μS/μK | ASTM D1894E | 0.52/0.49 |
| Wetting Tension | mN/m | ASTM D2578 | ≥36 |
| Sealing Strength | N/15mm | 85℃/135kpa/2S | 6.26 |
Polylactic acid (PLA) derived from renewable resources, such as corn starch and cassava. It is 100% biodegradable and compostable and becomes water and carbon dioxide finally after biodegradation process under composting conditions in 90 days. It conforms to ASTM D6400:2004 and DIN EN 13432:2000-12.
PLA Cling film is the best alternative and sustainable to replace traditional PE Cling film with same packing application and to prevent from serious pollution caused by traditional PE Cling film.
With high Oxygen transmission rate, PLA cling film extends freshness of vegetables.

● 100% Biodegradable and Compostable
● Safe for environment and body
● Food grade
● Free of plasticizer
● High Oxygen transmission rate
● Excellent barrier for flavor and aroma