New black colorants from Avient support circular economy and turn former waste into recyclable packaging Discover materials from Avient that can enable faster and more reliable communication, minimize signal loss and maximize connectivity, protect electronics from static build up and radio frequency interference (Chinese language version) Protecting your CEEE Applications from Counterfeiters

Discover how you can get more from Avient's colorants, additives and engineered materials for E&E plastic components and infrastructure (Chinese language version) Discover how you can get more from Avient's colorants, additives and engineered materials for E&E plastic components and infrastructure Continuous fiber reinforced thermoplastic composite tape is slit to custom widths from 2" to 24"

Discover how you can get more from Avient's colorants, additives and engineered materials for E&E plastic components and infrastructure (Chinese language version) Discover how you can get more from Avient's colorants, additives and engineered materials for E&E plastic components and infrastructure Continuous fiber reinforced thermoplastic composite tape is slit to custom widths from 2" to 24"

Protecting your CEEE Applications from Counterfeiters Information on the application and use of light shield additives to protect products from light damage Information on application and use of light shield additives to protect products from light damage (Chinese language version)

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. They also act as semi-conductors in cables and protect electronics from interference. Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. They also act as semi-conductors in cables and protect electronics from interference. Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. They also act as semi-conductors in cables and protect electronics from interference. Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. They also act as semi-conductors in cables and protect electronics from interference. Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. They also act as semi-conductors in cables and protect electronics from interference. Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. They also act as semi-conductors in cables and protect electronics from interference. Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use.