CARBON ABS

To enable customers to use their existing ABS molds, Avient has developed new PP-based grades with comparable shrinkage to traditionally used ABS materials. The Gravi-Tech Density Modified Formulations 5200 MS series offers customers an excellent option for ABS replacement within the luxury packaging market, allowing them to use their existing ABS molds. Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation and reduce carbon footprint

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Homepage // News Center // Avient Launches New reSound™ REC Thermoplastic Elastomers with Recycled Content for PC/ABS Overmolding Avient Launches New reSound™ REC Thermoplastic Elastomers with Recycled Content for PC/ABS Overmolding At the same time, PCR-containing formulations can help manufacturers, designers, and brand owners close the gap on ambitious sustainability targets by lowering carbon emissions.  

Home // Reduce the Carbon Footprint of Medical Plastics Choosing different materials can help reduce the carbon footprint of manufactured products. These color and additive solutions are available as concentrates or ready-to-use pre-colored formulations in bio-based polypropylene, polyethylene, polycarbonate, styrenic resins and ABS.

Carbon fiber reinforced polymers (CFRP), or carbon fiber composites, are made by combining carbon fiber with a resin, such as vinyl ester or epoxy, to create a composite material that has higher performance properties than the individual materials alone. What is Carbon Fiber? Carbon fiber, sometimes referred to as graphite fiber, is formed by bonding carbon atoms together to form a long chain.

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Long Carbon Fiber Reinforcement Overall, the superior mechanical properties of long carbon fiber reinforced composites make them an ideal substitute for metals.   Long carbon fiber composites are the top choice for mass reduction.

Avient’s Product Carbon Footprint Calculator Baseline the carbon footprint of Avient solutions Product Carbon Footprint (PCF) Explained

Home // Reduce Carbon Footprint by Replacing Traditional Materials Each year humans put more carbon dioxide into the atmosphere than natural processes can remove, amplifying Earth’s natural greenhouse effect. The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.