https://www.avient.com/knowledge-base/case-study/lightweighting-heavy-trucks
These tapes and laminates combined high strength, unidirectional fibers and engineered thermoplastic resins to help reduce weight while maintaining exceptional strength and impact resistance.
https://www.avient.com/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?rtype[]=1124
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?sust[]=1139
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?ind[]=6597
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?ind[]=21506
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/knowledge-base/case-study/reduce-carbon-footprint-replacing-traditional-materials?pname[]=10734
The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.
https://www.avient.com/knowledge-base/article/how-protect-blow-molded-bottles-drop-impact-damage?rtype[]=1164
Pursue a higher resin intrinsic viscosity
https://www.avient.com/knowledge-base/article/how-protect-blow-molded-bottles-drop-impact-damage?ind[]=6599
Pursue a higher resin intrinsic viscosity
https://www.avient.com/sites/default/files/2025-03/CAI Solutions for Recycled Resins in E_E Applications Product Bulletin _A4.pdf
Colorants and Additives for Recycled Resins
E&E Applications
The amount of recycled materials used in
electrical and electronic products is increasing
along with the diversity of polymer types being
recycled.
Cesa™ Flame Retardant Additives enable a
fire performance in line with different levels
of Glow Wire temperatures (IEC 60685-2-12)
for various recycled resins including PP, PC,
and PS.
COLOR SOLUTIONS
• OnColor™ Polymer Colorants customized to
customer’s requirements are color matched
taking into consideration the recycled
resin grade specificities and application
requirements
https://www.avient.com/sites/default/files/2022-03/CESA Block Product Selector Guide.pdf
CESA BLOCK – STANDARD OFFERINGS
POLYMER FAMILY MATERIAL PRODUCT NAME DOSAGE
Polyolefin PEA0820045 CESA Block PEA0820045 1–5%
Polypropylene PPA0820056 CESA Block PPA0820056 1–5%
Polyamide ABA0820022 CESA Block ABA0820022 2–6%
Polyester NBA0820024 CESA Block NBA0820024 1–5%
Styrenic SLA0820010 CESA Block SLA0820010 1–5%
TPU RUA0820028 CESA Block RUA0820028 1–5%
CESA Block additives can be used in combination with other CESA masterbatches, and formulations can be customized for most applications.