It is understood that a new technology that can change the molecular structure of plastics can make plastics more thermally conductive. In practical applications, thermally conductive plastics are also gradually replacing metal parts used in the heat-conducting parts of LED lamps, including lamp holders, cooling lamps and cooling lamps. Enclosures, etc. Thermally conductive plastics are characterized by uniform heat dissipation, light weight, and flexible design compared to metal materials. Compared to traditional metal materials, thermally conductive plastics have many advantages in the LED field. There are four points to summarize:
1, heat evenly, avoid burning hot spots, reduce the parts due to high temperature caused by local deformation.
2, light weight, 40-50% lighter than aluminum.
3, molding processing is convenient, no secondary processing.
4, high product design freedom.
The use of heat-conducting plastic instead of metal can increase the flexibility of the luminaire design and reduce the total weight of the luminaire. In addition, the application of heat-conducting plastic can effectively improve the lighting efficiency and save power consumption. With the technological innovation and investment, thermally conductive plastics in LED The field will have very good application prospects and development space.
Polyester Halogen-free flame retardant thermal plastic
Features: Thermally Conductive, Insulating, Halogen-Free Flame Retardant V0@1.6mm
Application: LED light cup
Typical grades: SE8912TC, SE8915TC, SE8918TC, SE8922TC
Polycelon high performance thermal plastic
Features: High thermal conductivity, high electromagnetic shielding efficiency, low frequency and RF shielding
Application: LED shades
Typical grades: SHJ7035, SHJ7038, SHJ70310, SHJ70453