polyolefins, polyesters) and engineering plastics (e.g., polycarbonate, ABS, POM, PBT). Now that resin producers are offering bio-based polyolefins and other polymers pre-tested to healthcare standards, the healthcare industry can start switching to bio-based polymers and bio-based polymer solutions to help reduce the carbon footprint and increase the sustainability of their plastic parts. 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.

Colorant Chromatics™ PEEK and PEI-Siloxane (SILTEM™ resin) Colorants & Pre-colored Solutions  Contact Avient to find the best solution for your process; color formulations can be supplied using a variety of specialty base resins from several major manufacturers and suppliers. SILTEM™ resins is a trademark of SABIC.

Bergadur™ Polyester Formulations Stan-Tone™ PEP Polyester Dispersions PET Polyester Fiber

Homepage // News Center // New Non-Fluorine Stain-Resistant Concentrates for Polyester Textiles from Avient Avient Launches Non-Fluorine Anti-Stain Concentrates for Polyester Textiles These additive concentrates can help enhance the durability and cleanliness of polyester fibers used in automotive textiles, carpets, rugs, and home and office furnishings.

Bergadur™ Polyester Formulations Stan-Tone™ PEP Polyester Dispersions PET Polyester Fiber

Bergadur™ Polyester Formulations Stan-Tone™ PEP Polyester Dispersions PET Polyester Fiber

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. The resin is then cured, resulting in a strong, lightweight, and durable composite product. Materials and processes such as fiber type, fiber volume, resin type, and surface veils and treatments can be engineered to meet specific properties and application requirements. 

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. The resin is then cured, resulting in a strong, lightweight, and durable composite product. Materials and processes such as fiber type, fiber volume, resin type, and surface veils and treatments can be engineered to meet specific properties and application requirements. 

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. The resin is then cured, resulting in a strong, lightweight, and durable composite product. Materials and processes such as fiber type, fiber volume, resin type, and surface veils and treatments can be engineered to meet specific properties and application requirements. 

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. The resin is then cured, resulting in a strong, lightweight, and durable composite product. Materials and processes such as fiber type, fiber volume, resin type, and surface veils and treatments can be engineered to meet specific properties and application requirements.