BOPLA Anti-Scratch Glossy Film – Keyful PLA-SAS-G
•Derived from renewable corn, certified for industrial composting.
•Outstanding printability: stable tension performance, compatible with flexographic, gravure, offset, screen, and UV printing, and perfectly supports hot stamping and other premium finishing processes, delivering a high-end look and feel.
•Barrier properties, high transparency & gloss, excellent folding resistance and good mechanical properties.
•Functionality: Inherent anti-static properties and excellent resistance to oils and grease; features superior scratch and abrasion resistance (withstands 1,000 cycles at 4 lbs load)
BOPLA Anti-Scratch Glossy Film, based on bio-based PLA, combines extreme gloss, high transparency, and strong abrasion resistance. It offers customizable adhesion and excellent printing compatibility, making it suitable for high-end paper-plastic packaging and label applications, providing both environmentally friendly and high-end brand image packaging solutions.
We focus on the research & development, production, manufacturing, and supply of various flexible, environmentally friendly, and biodegradable packaging films, covering BOPP, BOPET, BOPA, PE, and recyclable single-material films, and are committed to meeting the diverse packaging solution needs of the market.
Keyful BOPLA Anti-Scratch Glossy Film -PLA-SAS-G is based on bio-based PLA derived from renewable corn, and is industrially compostable certified, combining environmental protection and high-end performance. It has excellent printing adaptability and maintains stable tension under flexographic, gravure, offset, screen, and UV printing processes. It supports advanced surface treatments such as hot stamping, presenting excellent gloss and clarity.
High transparency and excellent refraction bring ultimate visual effects. With excellent anti-static, oil and stain resistance, and scratch resistance (withstands 1,000 cycles under 4 lbs load) performance, combined with excellent folding resistance and mechanical strength, it is suitable for mass customization of high-end packaging and labels. Bi-directional protection and ultra-low wear provide an integrated solution for paper-plastic composite packaging such as gift boxes, shopping bags, and books.
Applications
•Paper-Plastic Lamination Industry: Lamination for luxury gift boxes, folding cartons, shopping bags, books, and various product packaging.
•Label Industry: Printable labels, compatible with various adhesives, with customizable adhesion.
•High-end printing processes: Supports premium finishes such as hot stamping and metallization to enhance visual and tactile appeal.
•Shelf display and brand visuals: Enhances brand appeal in retail with high gloss and ultra-transparency.
Technical Properties (Typical Values)
| Property | Unit | Result | Test method |
|---|---|---|---|
| Thickness | microns | 18±2 | DIN 53 370 |
| Tensile strength MD/TD | MN/m² | 115 | ASTM D 882 |
| 110 | |||
| Elongation at break MD/TD | % | 115 | ASTM D 882 |
| 120 | |||
| Heat shrinkage MD/TD | % | 4.5 | ASTM D1204 100°C / 10 min |
| 1.5 | |||
| Seal strength | N/15mm | 2.5 | 135kPa / 85°C / 2S |
| Coefficient of friction (film to film) | / | 0.5 | ASTM D 1894 |
| 0.6 | |||
| Oxygen permeability | cc/m²·d | 510 | ASTM D3985 23°C / 0% R.H. |
| Water vapor permeability | g/m²·d | 1300 | ASTM F1249 38°C 90% R.H. |
| Wear Resistance | / | 4 LB 1000 times | ASTM D4060 |
| Light Transmittance | % | 94 | GB/T 2410-2008 |
All properties are tested under standard laboratory conditions: 23±2ºC; 50±5% RH, unless otherwise stated. Where relevant, tests are based on international testing standards. Metallising is conducted by a sub-contractor. MD – Machine Direction TD – Transverse Direction.
