What is the thermal conductive adhesive used for？

Thermal conductive adhesive is mainly used to improve the thermal conductivity of the heat dissipation system, especially in electronic equipment, LED lamps, power modules and other applications that need heat dissipation. ‌ Thermal conductive adhesive is a kind of thermal conductive adhesive based on organosilicon material, with good high temperature and high thermal conductivity. 

Its main features and applications include:

1、 Improves heat dissipation ‌ : Thermal conductive adhesive can enhance the thermal conductivity of the device and prevent device faults caused by overheating. In the manufacturing process of electronic equipment, the thermal conductive adhesive can closely connect the various parts together, while ensuring the thermal conductivity of the equipment, prevent damage due to overheating ‌.

2、‌ Enhances the thermal conductivity of solar panels ‌ : in the solar energy industry, thermal conductive adhesives can enhance the thermal conductivity of solar panels, so as to improve the photoelectric conversion efficiency ‌.

3、‌ Fixed and enhance the thermal conductivity of LED lamps ‌ : in the LED industry, thermal conductivity adhesive is used to fix the LED chip on the radiator, while ensuring good thermal conductivity, enhance the thermal conductivity of the equipment ‌.

4、‌ Electronic equipment manufacturing industry ‌ : in the manufacturing process of electronic equipment, thermal conductive adhesive plays the role of bonding and fixing, while enhancing the thermal conductivity of the equipment to prevent the equipment from overheating ‌.

5、‌ High temperature resistance and chemical medium resistance ‌ : thermal conductive adhesive has excellent thermal and cold resistance, aging resistance and electrical insulation properties, sustainable use at -60 ~ 280℃ and maintain performance, does not swell and has good adhesion to most metal and non-metallic materials ‌.

To sum up, thermal conductive adhesives play an important role in many industries, improving the overall performance and service life of products ‌ by improving heat dissipation efficiency, enhancing equipment stability and protecting equipment from overheating damage.