Chemical Recycling: Sometimes referred to as advanced or molecular recycling in the plastics world, chemical recycling of composites involves breaking down the composite’s matrix resin into molecular components by pyrolysis or solvolysis, allowing for the recovery of its fiber reinforcement. In solvolysis, the chain length of matrix polymers is reduced toward monomers while removing the matrix from the fibers so that both the fibers and matrix chemical products can be recovered. Mechanical Recycling: In contrast to chemical recycling, mechanical recycling does not affect the chemistry or composition of the composite being recycled.

Chemical Recycling: Sometimes referred to as advanced or molecular recycling in the plastics world, chemical recycling of composites involves breaking down the composite’s matrix resin into molecular components by pyrolysis or solvolysis, allowing for the recovery of its fiber reinforcement. In solvolysis, the chain length of matrix polymers is reduced toward monomers while removing the matrix from the fibers so that both the fibers and matrix chemical products can be recovered. Mechanical Recycling: In contrast to chemical recycling, mechanical recycling does not affect the chemistry or composition of the composite being recycled.

Chemical Recycling: Sometimes referred to as advanced or molecular recycling in the plastics world, chemical recycling of composites involves breaking down the composite’s matrix resin into molecular components by pyrolysis or solvolysis, allowing for the recovery of its fiber reinforcement. In solvolysis, the chain length of matrix polymers is reduced toward monomers while removing the matrix from the fibers so that both the fibers and matrix chemical products can be recovered. Mechanical Recycling: In contrast to chemical recycling, mechanical recycling does not affect the chemistry or composition of the composite being recycled.

Chemical Resistance for Medical Devices - Technical Bulletin Resist Chemical Attack Looking for excellent chemical resistance high performance applications?

Chemically resistant polymers to protect against harsh medical-grade cleaners and disinfectants  Chemical Resistance for Medical Devices - Technical Bulletin Chemically Resistant Polymers for Next-Generation Devices

Chemical Inventories Status Chemical inventories status for Avient Global Chemical Management Policy

Improve Chemical Resistance, Reduce Carbon Footprint  These materials are semi-crystalline and deliver excellent chemical resistance, low moisture uptake, and dimensional stability similar to nylon (PA6 and PA66). Chemical resistance

Avient to feature its latest sustainable solutions of colorants and functional additives for dyes, chemicals, finishes, and spin-dyeing, at ITMA 2023 in Hall 5, booth B302.  Dyes, Chemicals, and Finishes In addition to its colorant and additive solutions, Avient will also exhibit its MagnaColours® ITO range of textile dyes, chemicals, and functional finishes.

Healthcare facilities today are focused on disinfecting devices repeatedly with increasingly harsh chemicals as a means to help combat healthcare-associated infections (HAIs). Thermoplastics: Trilliant™ HC high performance formulations deliver excellent chemical resistance and durability for medical device enclosures and components. Overmolded thermoplastic elastomers: Versaflex™ HC solutions provide excellent chemical resistance to alcohol, bleach and peroxide based antiseptics, and bonds to chemically resistant substrate resins for superior adhesion and durability across a wide range of applications.

A fresh alternative to painted metal or plastic parts, Artisan thermoplastics provide chemical and scratch resistance, weatherability, and UV stability for long-lasting aesthetics. Excellent chemical resistance ABS grades offering good scratch and chemical resistance with the ability to retain as high as 94% gloss.