Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Special fillers, however, can make a plastic compound electrically or thermally conductive. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. such as conductive carbon black, graphite, graphene, and carbon nanotubes) and some are thermally and electrically conductive.

Thermal Management: Thermal management is crucial to battery performance and longevity. 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. 

Thermal Management: Thermal management is crucial to battery performance and longevity. 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. 

Thermal Management: Thermal management is crucial to battery performance and longevity. 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.