Overview
Biopolyesters
Biodegradable bioplastics from renewable sources
Biopolyester is a biodegradable bioplastic produced from micro organisms derived from oil plants, breaking down quickly under natural anaerobic, aerobic, or composting conditions while delivering performance similar to polyethylene and polypropylene.
Biopolyester is produced from micro organisms grown from oil plants, and its degradation occurs in a short time under natural conditions — anaerobic, aerobic, or compound. The material exhibits characteristics similar to polyethylene and polypropylene, combining softness with heat resistance.
Its processing profile suits film and bag production, with good processability, high tear strength, good bubble stability, and high tensile strength. Resin is supplied in 25 kg bags and 500 kg flex-con bags.
Key Benefits
- Biodegradable under natural anaerobic, aerobic, or composting conditions
- Produced from renewable micro organisms derived from oil plants
- Characteristics similar to polyethylene and polypropylene, with softness and heat resistance
- Good processability and good bubble stability for blown-film conversion
- High tear strength and high tensile strength for durable film and bags
End Markets
Industries We Serve
- Packaging & Flexible Films
- Food & Beverage Packaging
- Construction & Pipe Systems
- Agriculture Applications
- Automotive Components
- Industrial Manufacturing
Specifications
| Density | 1.20–1.30g/cm³ |
|---|---|
| Glass transition temperature | -50 to -20°C |
| Degradation temperature | 240–250°C |
| Tensile modulus | 250–1500MPa |
| Tensile yield strength | 30–50MPa |
| Tensile elongation | 30–300% |
| Impact | 30–60kJ/m² |
Applications
- General and industrial packaging
- Shopping bags
- Waste bags
- Trash bags
- Compostable bags