https://www.avient.com/products/fiber-line-engineered-fiber-solutions/high-performance-synthetic-fibers/novoloid-phenolic-fiber
History
The technology to produce novoloid phenolic fiber was initially developed in the late 1960’s with commercial fiber production and development by Gunei Chemical Industry Co. based in Japan.
https://www.avient.com/products/fiber-line-engineered-fiber-solutions/fiber-line-performance-enhancing-processes/pultrusion-composite-fiber-rods
Pultrusion Technologies: Glasforms™
https://www.avient.com/products/engineered-polymer-formulations/flame-retardant-formulations/bergamid-fr-non-halogen-flame-retardant-formulations
Our fire retardant technology will help you meet evolving regulatory and performance demands
https://www.avient.com/products/long-fiber-technology/long-fiber-solutions/performance-additives
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Performance Additives
https://www.avient.com/products/polymer-colorants/colorant-dispersions/stan-tone-pep-polyester-dispersions
Silicone Dispersion Technologies
https://www.avient.com/products/polymer-colorants/colorant-dispersions/stan-tone-rbx-rubber-dispersions
Enhanced and developed to meet specific requirements, Stan-Tone™ RBX dispersion technologies can be effectively used for a variety of applications, including industrial goods, automotive mats, rubber flooring, sponge rubber, wire and cable applications, and medical equipment.
https://www.avient.com/products/polymer-colorants/colorant-dispersions/stan-tone-wdn-water-based-dispersions
Silicone Dispersion Technologies
https://www.avient.com/products/polymer-colorants/colorant-dispersions/stan-tone-epx-epoxy-dispersions
Silicone Dispersion Technologies
https://www.avient.com/knowledge-base/article/advanced-composites-ballistic-protection
Composite Ballistic Protection
Learn more about Avient's portfolio of ballistic protection technologies.
https://www.avient.com/knowledge-base/article/optimizing-automotive-structural-component-designs-advanced-modeling
Predictive simulation technology uses conventional (isotropic) and advanced (anisotropic) modeling data from material characterizations, mold filling analysis, and finite element analysis (FEA) to more accurately forecast performance and potential failure points.
