Plastics do not readily conduct electricity, or heat and cool the way metals do. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.

Plastics do not readily conduct electricity, or heat and cool the way metals do. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.

Plastics do not readily conduct electricity, or heat and cool the way metals do. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.

Plastics do not readily conduct electricity, or heat and cool the way metals do. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.

Plastics do not readily conduct electricity, or heat and cool the way metals do. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.

Plastics do not readily conduct electricity, or heat and cool the way metals do. Some fillers make plastics electrically and thermally conductive, and others add thermal conductivity without electrical conductivity. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source.

Its thermally conductive properties allow for effective heat management, but material and production costs can be high. Recent advances in polymer technology make it possible to formulate thermally conductive plastics that manage heat just as effectively overall as their metal counterparts. First find a component’s heat dissipation requirements by conducting a heat analysis.

Its thermally conductive properties allow for effective heat management, but material and production costs can be high. Recent advances in polymer technology make it possible to formulate thermally conductive plastics that manage heat just as effectively overall as their metal counterparts. First find a component’s heat dissipation requirements by conducting a heat analysis.

Our thermally conductive plastics offer significant advantages for lighting, compared to metal. Our thermally conductive plastics offer significant advantages for lighting, compared to metal. More Increasing Supply Security for Medical Plastics Minimize the risk of supply disruptions for healthcare plastic colorants and functional additives More Advanced Composites Explained This comprehensive guide covers everything from the basics of composites to the properties, advantages, and common applications.

Cesa™ Conductive Additives Cesa Conductive formulations and masterbatches improve electrical conductivity in plastic packaging to prevent static discharge that can damage sensitive electronic components. A full line of dispersions for rubber and plastic applications.