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How to use custom thermal conductive materials
Release time:
2021-05-19
Customizable Thermal Conductive MaterialIt is a new type of industrial material. These materials are designed to meet the thermal conductivity requirements of equipment in recent years, and they have excellent performance and reliability. They are suitable for various environments and requirements, and have appropriate countermeasures for potential heat conduction problems, providing strong support for equipment and ultra-small, ultra-thin, highly integrated devices. Thermal conductive products are now being increasingly used in many products, greatly improving product reliability.
Customizable Thermal Conductive MaterialApplication Method
Step 1: Use a cotton ball (cotton cloth) dipped in alcohol. Then clean the surface of the heatsink with isopropyl alcohol solvent.
Step 2: Peel off the transparent protective film on the phase change inner liner and then paste it on the heatsink.
Step 3: Gently press the phase change resistor thermal conductive sheet with your fingers.
Step 4: Tear off the blue protective film on the phase change pad by hand and press the device on top.
IV. Conductive and Thermal Conductive Pad
Customizable Thermal Conductive MaterialThe inner liner has thermal and electrical conductivity. Its unique particle directional arrangement has a metal-like structure, ensuring conductivity while adhering to the heat exchange surface to ensure thermal conductivity. Customizable thermal conductive materials have good flexibility and mechanical properties and can work normally in an environment of 50℃-200℃. They have good recoverability and small deformation after being pressed. The thermal resistance of the customizable thermal conductive material pad is very small, and it can completely replace high-performance thermal grease while avoiding the disadvantages of poor processability and messy thermal grease.
Customizable thermal conductive materials are three-dimensional, that is, they can conduct heat not only in the vertical direction of the heat source and the heatsink, but also in the longitudinal direction, ensuring that when the local thermal energy is too high, the heat can be quickly conducted away through the longitudinal thermal conductivity characteristics. Therefore, the customizable thermal conductive material inner liner is very suitable for efficiently transferring the heat generated by the heat source in a narrow space.
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