PRODUCTS
Bio Plastic
Wheat straw pellets, derived from renewable agricultural residues, serve as eco-friendly carriers for biopolymers (e.g., PLA) and petroleum-based polymers (e.g., PP, PE, ABS, TPU).
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Bamboo fiber pellets are compressed granules made from bamboo-derived fibers, primarily extracted from the hollow stems of bamboo plants belonging to the grass family.
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Coffee husk pellets are biofuel granules produced from coffee processing waste, primarily coffee husks, which are generated in equal weight to coffee beans during production.
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Wood fiber pellets are cylindrical biofuel granules produced by compressing processed wood residues or forestry by-products into standardized dimensions (6-8 mm diameter).
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PLA Bamboo Fiber Modified Materials for 3D Print Furniture
PLA bamboo fiber modified materials represent an eco-friendly innovation for 3D-printed furniture. By blending biodegradable polylactic acid (PLA) with natural bamboo fibers, this composite enhances mechanical strength, thermal stability, and texture while maintaining sustainability. The bamboo fibers act as a renewable reinforcement, reducing PLA’s brittleness and improving load-bearing capacity—ideal for furniture applications. 3D printing allows intricate, customizable designs with minimal waste. This material combination also offers a wood-like aesthetic, appealing to eco-conscious consumers. Research shows optimal fiber ratios (10–30%) balance durability and printability. As a low-carbon alternative to traditional plastics, PLA-bamboo composites align with circular economy goals, making them promising for future sustainable furniture production.
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PLA Wood Fiber Modified Materials for 3D Print Furniture
PLA wood fiber modified materials offer a sustainable solution for 3D-printed furniture by combining biodegradable polylactic acid (PLA) with wood fibers. This hybrid material enhances mechanical properties, such as tensile strength and impact resistance, while retaining eco-friendly attributes. Wood fibers improve PLA’s thermal stability and reduce shrinkage during printing, ensuring dimensional accuracy for furniture components. The natural wood-like texture and appearance appeal to design-focused applications. Optimal fiber content (15–25%) balances printability and structural performance. Compared to conventional plastics, PLA-wood composites reduce carbon footprint and enable waste-free customization via additive manufacturing. This innovation aligns with circular economy principles, making it ideal for eco-conscious furniture production.
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