https://www.avient.com/knowledge-base/article/what-s-difference-fillers-reinforcements?ind[]=21506
Plastics do not readily conduct electricity, or heat and cool the way metals do.
While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.
Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.
https://www.avient.com/knowledge-base/article/what-s-difference-fillers-reinforcements?ind[]=6599
Plastics do not readily conduct electricity, or heat and cool the way metals do.
While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.
Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.
https://www.avient.com/knowledge-base/article/what-s-difference-fillers-reinforcements?ind[]=6601
Plastics do not readily conduct electricity, or heat and cool the way metals do.
While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.
Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.
https://www.avient.com/knowledge-base/article/what-s-difference-fillers-reinforcements?ind[]=21509
Plastics do not readily conduct electricity, or heat and cool the way metals do.
While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.
Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.
https://www.avient.com/knowledge-base/article/what-s-difference-fillers-reinforcements?ind[]=6598
Plastics do not readily conduct electricity, or heat and cool the way metals do.
While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.
Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.
https://www.avient.com/knowledge-base/article/what-s-difference-fillers-reinforcements?rtype[]=1164
Plastics do not readily conduct electricity, or heat and cool the way metals do.
While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.
Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.
https://www.avient.com/news/archives?page=28
Caption: Avient launches Edgetek™ Toughened PPA formulations that offer high-heat performance, low moisture absorption, and excellent impact resista
https://www.avient.com/products/polymer-additives/chain-extender-additives/cesa-extend-additives
Re-using post-industrial or post-consumer polyester regrind has typically been limited due to the adverse effects of heat and moisture on the virgin resin.
https://www.avient.com/products/printing-and-marking-inks/colorant-chromatics-low-temperature-inks
We recommend pre-heating the surface for optimum wetting and using cross-linking agents to improve drying and chemical and mechanical resistance.
https://www.avient.com/products/polymer-colorants/colorant-dispersions/colorants-high-consistency-silicone-rubber
Heat stability
