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What types of bioplastics do you offer, and how do they benefit the environment?

Our company specializes in a range of sustainable bioplastic solutions, including PLA (Polylactic Acid), PBAT (Polybutylene Adipate Terephthalate), and bio filler options. PLA bioplastics are derived from renewable resources like corn starch and are compostable, making them ideal for applications that require rigid, eco-friendly packaging. PBAT, another biodegradable plastic, is known for its flexibility and is often used to enhance compostable films and packaging. Our bio fillers, which incorporate natural minerals like calcium carbonate, allow for increased biodegradability while reducing the use of conventional plastics. Together, these materials provide versatile, sustainable alternatives that reduce plastic pollution and reliance on fossil fuels, supporting a greener, more circular economy

We offer PLA, PBAT, and bio filler bioplastics, each designed for specific applications and levels of biodegradability.

Bio fillers like calcium carbonate and talc are added to bioplastics to enhance strength, reduce costs, and improve biodegradability, without releasing harmful particles.

PLA is excellent for rigid and semi-rigid packaging, offering strength and compostability, but it’s less flexible than other bioplastics like PBAT.

PBAT is known for its flexibility and durability, making it ideal for films, bags, and compostable packaging that require some stretch.

Yes, both PLA and PBAT are compostable under the right industrial conditions, with bio fillers added to support decomposition.

 

While bioplastics are highly versatile, their use depends on the application. PLA and PBAT are great alternatives for packaging, but some uses may still require conventional plastics.

Our bio fillers use renewable materials like calcium carbonate and starch, which help enhance product performance and sustainability.

PLA is typically processed between 145-165 °C, depending on specific requirements.

PBAT is more flexible than PLA, making it better suited for products needing durability and elasticity, such as compostable films.

Yes, our bioplastics, including PLA and PBAT, are designed to biodegrade in industrial composting environments, ensuring an eco-friendly lifecycle.

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