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. 

Consistent We employ processes to ensure the same products are available from any production facility, meeting the same technical, regulatory and quality requirements. Harmonized product formulations available from all three Centers of Competence.

Consistent We employ processes to ensure the same products are available from any production facility, meeting the same technical, regulatory and quality requirements. Harmonized product formulations available from all three Centers of Competence.

Wall thickness in the range from 0.060" to 0.120" will ensure good bonding in most overmolding applications. Prevent the TPE from flashing over areas on the substrate.

Here are some of the benefits that can result from pursuing their use: Among them are CORE™ Bio-based Vinyl Plastisols formulated with at least 25% bio content derived from renewable natural resources.

As PET undergoes multiple remelting cycles, it can break down, suffering from thermal degradation, and resulting in a material of lower quality than its virgin counterpart. This degradation can impact the processability, quality, and food safety of packaging made from rPET.

As PET undergoes multiple remelting cycles, it can break down, suffering from thermal degradation, and resulting in a material of lower quality than its virgin counterpart. This degradation can impact the processability, quality, and food safety of packaging made from rPET.

As PET undergoes multiple remelting cycles, it can break down, suffering from thermal degradation, and resulting in a material of lower quality than its virgin counterpart. This degradation can impact the processability, quality, and food safety of packaging made from rPET.