TPAD series material can fill the air gap between the heat generating device and the heat sink or metal base. Its flexible and elastic characteristics can be used to cover the uneven surface of the device, conducting the heat to the metal housing or the heat sink device, so as to improve the operating efficiency and life cycle of heat-generating electronic devices.
Thermal gel material is filled between the heat-generating device and the heat sink to make it closely contact and reduce the thermal resistance, so as to reduce the temperature of the heat-generating device quickly and effectively, thereby prolonging the life cycle and improving its reliability.
TGRE series thermal grease is a paste-like high-efficiency heat dissipation product. It can maintain the state of grease for a long time at a temperature of -50~200°C, and has good chemical stability, non-toxic, odorless, and non-corrosive. TGRE Series Thermal Grease is used to fill between the device and the heat sink, driving away the air from the gap. Its excellent rheological property, fully infiltrates the contact interface, forming a very low thermal resistance interface, which is helpful for the CPU High-power LED and other heat-generating devices cooling down.
TPCM series thermal phase change materials are solid at room temperature and easy to handle. They can be easily attached to heat sinks or device surfaces. When the heat-generating device reaches the phase transition temperature, the heat-conducting phase-change material becomes soft until it is pasty, so that it can fully wet the surface of the device, thereby fully filling the gap between the interfaces and achieving the goal of minimum thermal resistance.
TFLM series thermal graphite material is a carbon thermal conductive material with unique grain orientation and uniform thermal conductivity in both directions. Its horizontal thermal conductivity can reach 1700W/m-k, and its vertical direction can reach 15W/m-k. At the same time, TFLM series thermal graphite material is light and soft, and because of its special lamellar structure, it can adapt to any device surface, and it is easy to operate.
Energy storage material, also called latent heat energy storage material, refers to a material that can absorb or release heat when the material undergoes a phase change, and the temperature of the material itself does not change or change little.