Engineered polymers can be designed with specific thermal properties, possessing either excellent thermal conductivity or enabling efficient heat dissipation from the battery cells. Thermally conductive formulations can also be electrically isolative or conductive, combining thermal performance with protection from electrostatic discharge and electromagnetic interference, depending on the needs of the specific component. 

Engineered polymers can be designed with specific thermal properties, possessing either excellent thermal conductivity or enabling efficient heat dissipation from the battery cells. Thermally conductive formulations can also be electrically isolative or conductive, combining thermal performance with protection from electrostatic discharge and electromagnetic interference, depending on the needs of the specific component. 

Engineered polymers can be designed with specific thermal properties, possessing either excellent thermal conductivity or enabling efficient heat dissipation from the battery cells. Thermally conductive formulations can also be electrically isolative or conductive, combining thermal performance with protection from electrostatic discharge and electromagnetic interference, depending on the needs of the specific component. 

Therma-Tech™ Thermally Conductive Formulations Heat transfer capabilities of metal with design freedom and weight reduction of engineered polymers Learn more about Avient's formulations for 5G that lead to accelerated speed to market, design flexibility, and high heat resistance

Carbon fiber is known for its strength, toughness, vibration damping, and electric conductivity, while fiberglass offers excellent mechanical and insulative properties. In all cases, polymer composites enhance performance thanks to their resistance to corrosion, heat, weather, and flame. It is a continuous molding process where fibers are saturated with a liquid polymer, then carefully pulled through a heated die to form the parts.

Heat Resistance Heat Deflection Temperature @ 264 psi Conductive – Modify the inherent electrical insulative nature of plastics with additive technologies to render them antistatic, static dissipative, conductive, or to provide EMI shielding characteristics.

Use a small nozzle orifice to help produce shear heating during injection Overmolded parts will take longer to cool because the TPE is only cooled from one side as the plastic substrate has poor thermal conductivity. Substrate cleanliness, preparation and pre-heating

Use a small nozzle orifice to help produce shear heating during injection Overmolded parts will take longer to cool because the TPE is only cooled from one side as the plastic substrate has poor thermal conductivity. Substrate cleanliness, preparation and pre-heating

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

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