https://www.avient.com/knowledge-base/article/material-solutions-expanding-ev-charging-infrastructure?sust[]=1165
Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation.
Chemical foaming agents are successfully used in plastics to cut weight from parts without compromising mechanical properties.
They are available in liquid or solid form and can result in 10-20% less plastic needed.
https://www.avient.com/knowledge-base/article/material-solutions-expanding-ev-charging-infrastructure?ind[]=6601
Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation.
Chemical foaming agents are successfully used in plastics to cut weight from parts without compromising mechanical properties.
They are available in liquid or solid form and can result in 10-20% less plastic needed.
https://www.avient.com/knowledge-base/article/material-solutions-expanding-ev-charging-infrastructure
Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation.
Chemical foaming agents are successfully used in plastics to cut weight from parts without compromising mechanical properties.
They are available in liquid or solid form and can result in 10-20% less plastic needed.
https://www.avient.com/knowledge-base/article/material-solutions-expanding-ev-charging-infrastructure?sust[]=1135
Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation.
Chemical foaming agents are successfully used in plastics to cut weight from parts without compromising mechanical properties.
They are available in liquid or solid form and can result in 10-20% less plastic needed.
https://www.avient.com/knowledge-base/article/material-solutions-expanding-ev-charging-infrastructure?sust[]=1136
Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation.
Chemical foaming agents are successfully used in plastics to cut weight from parts without compromising mechanical properties.
They are available in liquid or solid form and can result in 10-20% less plastic needed.
https://www.avient.com/products/polymer-colorants/solid-color-masterbatches/oncolor-bio-colorants
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OnColor™ Bio Colorants
The ingredients in OnColor Bio color concentrates were carefully chosen to meet industry requirements and legislation, while offering a full pallet of color choices.
https://www.avient.com/industries/transportation/trucking/trucking-interiors
Solid masterbatch colorants
Pallets
https://www.avient.com/industries/transportation/automotive/automotive-lighting
Liquid and solid masterbatch colorants differentiate exterior lights—often without adding enormous cost
Pallets
https://www.avient.com/industries/consumer/consumer-discretionary/small-appliances
Our special effects, liquid and solid colorants expand your design and processing flexibility for a wide range of aesthetic possibilities.
Pallets
https://www.avient.com/knowledge-base/article/getting-more-efficient-polymer-colorants?rtype[]=1164
If you are manufacturing plastics, you know there can be potential challenges in getting the colorants you need.
For those of you using solid colorants, consider if a liquid solution would be appropriate.
Liquid color can provide up to a 50% reduction in changeover time compared to solid.