Thermal gel series products are glue products used for heat conduction and heat dissipation, which are mostly used for heat conduction and heat dissipation of electronic products with requirements of medium and low pressure and high compression modulus. Most of the thermal gel is needle and barrel mounted, so automatic production can be realized through automatic dispensing machine. Such thermal gel has good contact with electronic products when assembled, showing low contact thermal resistance and good electrical insulation characteristics. And thermal gel also has the advantages of heat conduction pad and heat conduction silicone grease, making up for its shortcomings.

One component and two component thermal gel

Both single component thermal gel glue and two-component thermal gel glue inherit the advantages of silica gel glue and have good affinity, weather resistance, high and low temperature resistance and insulation. At the same time, it has strong plasticity, which can meet the filling of uneven interfaces and the heat transfer requirements of various applications. It has effective thermal conductivity, low compression force application, low voltage, high compression ratio, high electrical insulation, good temperature resistance, and can achieve fixed-point quantitative control for new energy and three-axis dispensing machines, saving labor costs and improving production efficiency. Because the thermal gel has a certain adhesion (cohesiveness), and will not oil out or dry out, it can have a long service life compared with the thermal conductive silicone grease in terms of service reliability.

Due to the fluidity and good surface affinity of thermal gel water, it can more fully fill various interfaces, and can also be compressed to an extremely thin thickness, thus greatly improving the heat transfer efficiency. Our company's main thermal gel has outstanding advantages as a new type of thermal conductive material that can realize full automatic dispensing. The model HP380/HP600/HP800 has thermal conductivity of 3.8W/mK, 6W/mK and 8W/mK respectively.