Therma-Tech™ Thermally Conductive Formulations These materials are formulated using select engineering resins along with proprietary conductive additives, and have been shown to improve thermal conductivity by 50-100 times that of conventional plastics.  Learn the possibilities of replacing metal with plastics in thermal management.

As a result, thermally conductive plastics offer superior performance-to-weight ratios, making them an excellent choice for applications like automotive lighting and electronic systems.  Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits. For many of the same reasons, thermally conductive plastics are also useful in the design of electronic components, fluid management systems, and many other heat-sensitive applications.

ElectriPlast Corp. is a leading technology innovator in conductive plastics with a broad intellectual property portfolio and deep application development expertise. Its core material, ElectriPlast®, is an electrically conductive resin-based material whose properties allow it to be molded into infinite shapes and sizes associated with plastics and rubbers, while reducing component weight by 40 to 60%. Integral is a leader in conductive hybrid plastics, having over 50 issued patents for conductive plastic.

As a result, thermally conductive plastics offer superior performance-to-weight ratios, making them an excellent choice for applications like automotive lighting and electronic systems.  Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits. For many of the same reasons, thermally conductive plastics are also useful in the design of electronic components, fluid management systems, and many other heat-sensitive applications.

As a result, thermally conductive plastics offer superior performance-to-weight ratios, making them an excellent choice for applications like automotive lighting and electronic systems.  Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits. For many of the same reasons, thermally conductive plastics are also useful in the design of electronic components, fluid management systems, and many other heat-sensitive applications.

As a result, thermally conductive plastics offer superior performance-to-weight ratios, making them an excellent choice for applications like automotive lighting and electronic systems.  Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits. For many of the same reasons, thermally conductive plastics are also useful in the design of electronic components, fluid management systems, and many other heat-sensitive applications.

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.

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.