Counter the rising temperature of your electric systems by eliminating thermal pads and heat sinks Electrically conductive materials High heat and chemical resistance

Thermally conductive formulations to dissipate heat  Stat-Tech™ Static Dissipative & Electrically Conductive Formulations Therma-Tech™ Thermally Conductive Formulations

Colorant Chromatics™ Conductive Formulations Cesa™ Conductive Additives Cesa™ Raise Heat Stability Modifier for APET Packaging

THERMAL INERTIA Thermal conductivity has traditionally been the primary metric considered for material selection to manage heat. It measures how well a material absorbs energy in the form of heat but does not measure how well it releases the heat. Higher density materials absorb more energy than lower densities, so materials like steel have higher thermal conductivity than less-dense ceramics.

Homepage // News Center // Avient Introduces CESA™ Fiber Additives for Heat Preservation to Help Meet Fashion Design’s Functional Needs Avient Introduces CESA™ Fiber Additives for Heat Preservation to Help Meet Fashion Design’s Functional Needs. Fabrics made with CESA fiber additives can absorb more heat when exposed to solar rays.

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. Antimicrobial and antifungal additives can protect the user interfaces and touchpoints from mold, mildew, and bacteria, while antistatic and conductive formulations can prevent static discharge and create safer, statically dissipated plastic parts.  

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. Antimicrobial and antifungal additives can protect the user interfaces and touchpoints from mold, mildew, and bacteria, while antistatic and conductive formulations can prevent static discharge and create safer, statically dissipated plastic parts.  

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. Antimicrobial and antifungal additives can protect the user interfaces and touchpoints from mold, mildew, and bacteria, while antistatic and conductive formulations can prevent static discharge and create safer, statically dissipated plastic parts.  

THERMALLY CONDUCTIVE THERMOPLASTICS REDUCE WEIGHT IN VEHICLE LIGHT HEAT SINKS THERMALLY CONDUCTIVE THERMOPLASTICS REDUCE WEIGHT AND DISSIPATE HEAT © 2023, All Rights Reserved Avient Corporation, 33587 Walker Road, Avon Lake, Ohio USA 44012 Interested in learning more about thermally conductive thermoplastics? Traditionally aluminum or zinc aluminum alloys (Zamak) are used for heat sinks due to their high thermal conductivity, which was also the case at Elausa. Due to the success of this project, the new, lighter heat sink made from Therma- Tech conductive thermoplastics has been rolled out across multiple vehicle models.

Composite Heat Release Technology Cesa™ Conductive Additives Cesa™ Raise Heat Stability Modifier for APET Packaging