Our expertise has enable us to ensure finest 

Thermal Grease

 by subjecting our products to stringent quality control measures during each stage of production and while dispatch. We sincerely welcome all relevant friends all over the world to come for visit and cooperation!

Thermal Grease is a high thermally conductive silicone material, and almost never curing temperature of -50 ℃ - 250 ℃, long-term use of the wealth of the state. With both excellent electrical insulation and excellent thermal conductivity, low oil from the degree (towards zero), high temperature resistance, water resistance, ozone resistance to weathering. Furthermore, our products are well-appreciated due to their purity, thermal and oxidative stability, hydrolytic stability and water tolerance etc. It also has high thermal resistance properties and does not melt or solidify at extreme temperatures. Tested on various parameters, these products offer very high drop point which is essential for thermal and structural stability. We are expert in manufacturing and supplying this range of Thermal Grease that finds versatile applications like mounting studs of transistors, diodes and silicone rectifies to provide effective heat seal and to improve conductivity at heat sink junctions. It can be widely applied over a variety of electronic products, the surfaces between the heating elements in electrical equipment ( power transistor , SCR, Electric heap , etc.) and cooling facilities (heat sink, heat, shell, etc.) , from heat transfer medium of the role and resistant of moisture , dust, corrosion , shock performance. They are also suitable for surface coating or as a whole potting for microwave communications, microwave transmission equipment, microwave power, and various power supply microwave devices.

JPNS200 are formulated with Synthetic fluids and highly conductive ceramic fillers. These finely engineered compounds provide low bleed and solve the problems of contamination and migration associated with silicone based products. 
They offer better stability for a longer life cycle with high thermal conductivity (2 W/m°K) and low thermal resistance (0.014 °C-in2/W).

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