Plastic Housing
Versatile Applications
Plastic housings must balance intelligent design, functionality, and durability while meeting high mechanical, physical, and thermal requirements. From electronic device casings to switch boxes and connector housings, selecting the right material is crucial. Traditionally, fossil-based plastics like ABS or polystyrene have dominated, but manufacturers now seek eco-friendly alternatives to create unique and sustainable designs that stand out in competitive markets.
Sustainable, injection-moldable solutions offering heat resistance, impact strength, and UV stability for high-performance, eco-friendly plastic components.
Bio-based plastic granules provide the durability of conventional materials like ABS while supporting sustainability. Compatible with existing molds, these materials enable manufacturers to produce strong, reliable housings with renewable content and optional glass-fiber reinforcement for enhanced performance.
Material
Bio-Flex F 2110, Bio-Flex FX 1137
3D Printing Filament
Versatile Applications
Using biodegradable plastics in 3D printing combines innovation with environmental responsibility. Filaments made from bioplastics, such as Bio-Flex®, provide the strength and flexibility required for a wide range of applications while offering a sustainable alternative to traditional plastic filaments. These materials not only meet performance expectations but also decompose naturally at the end of their lifecycle, making them ideal for eco-conscious 3D printing projects.
Why 3D printing is a game-changer for customization, precision, and waste reduction in modern sustainable manufacturing processes.
This technology enables the creation of intricate designs with minimal material use, supporting prototyping and full-scale production across industries. By reducing lead times and waste, 3D printing enhances efficiency while promoting more sustainable manufacturing practices.
Material
Fibrolon 3D Natural fibres – Wood
Technical Plastic Parts
Versatile Applications
In the production of technical plastic parts, precision and detail are paramount. High-quality bioplastics ensure that complex designs and intricate components are manufactured with exceptional accuracy and reliability. These materials meet the rigorous demands of industries requiring fine tolerances, providing a sustainable alternative to traditional plastics without compromising performance or durability.
Tested and certified mechanical properties ensuring bioplastics meet stringent standards for strength, thermal stability, and chemical resistance in technical applications.
Thoroughly tested for durability, these bioplastics withstand high loads, extreme temperatures, and chemical exposure. Their certified performance makes them a reliable choice for technical components in industries requiring robust and sustainable material solutions.
Material
Bio-Flex F 6510, Bio-Flex F 6514, Bio-Flex 3D Clear, Bio-Flex F 7510, Bio-Flex S 7514 and Terralene LD 2509 CL
Toys
Versatile Applications
Good toys must be stable, durable, and above all, safe for children. Many traditional toys are made from plastics, but bioplastics derived from renewable resources offer a safer, eco-friendly alternative. Parents are increasingly seeking toys that are not only fun and educational but also free from harmful substances. Bioplastics ensure high-quality, non-toxic toys that align with the growing demand for sustainable, child-safe products.
Resource-saving and recyclable materials for toy manufacturing that reduce CO2 emissions while ensuring durability, safety, and sustainability in production.
Bioplastics like Terralene® offer an eco-friendly alternative, supporting extrusion, injection molding, and blow molding. These fully recyclable materials maintain the strength needed for toys while helping manufacturers reduce environmental impact without compromising quality or safety standards.
Material
Bio-Flex F 6510, Bio-Flex F 6514, Terralene HD 4527
