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Enhancing EV Charging: Thermal Conductive Silicone Pads Explained
Application scenarios of thermal conductive materials in the new energy market
The solar energy vehicle charging pile silicone thermal pad is a high-performance gap-filling thermal conductive material designed specifically to improve the heat dissipation efficiency of charging piles.
New energy vehicle charging pile silicone thermal pad, also known as thermal conductive silicone sheet or thermal conductive silicone pad, is a thermal conductive pad made of high-performance silicone material. It is mainly used to fill the gap between the internal electronic components of the charging pile and the heat sink or shell to improve the heat transfer efficiency, thereby extending the service life of the charging pile.
Main characteristics of silicone thermal pads
- High thermal conductivity of silicone thermal pads:
The thermal conductive silicone pad has a high thermal conductivity and can quickly transfer the heat generated inside the charging pile to the heat sink or casing to improve the heat dissipation efficiency.
2. Excellent insulation properties of thermally conductive silicone gasket:
The thermal conductive silicone pad has good insulation properties, which can effectively prevent circuit short circuits and other problems, ensuring the safe operation of the charging pile.
3.Flexibility and plasticity of thermal conductive silicone gasket:
The thermal conductive silicone pad has certain flexibility and plasticity, and can be cut according to the shape of the charging pile to better meet the heat dissipation requirements of the charging pile.
4.High and low temperature resistance of thermal conductive silicone gasket:
The thermal conductive silicone pad can maintain stable thermal conductivity in a wide temperature range, adapting to the use requirements of new energy vehicle charging piles in different environments.
5.Shock-absorbing and cushioning effect of thermally conductive silicone gasket:
Since the new energy vehicle charging pile will produce continuous shaking and vibration when working, the softness of the thermal conductive silicone pad can play a role in shock absorption and buffering, protecting the electronic components inside the charging pile.
Application fields of thermal conductive silicone pad
New energy vehicle charging pile silicone thermal pads are widely used in the heat dissipation system of new energy vehicle charging piles, especially in high-power charging piles, the heat dissipation effect is more significant. In addition, thermal conductive silicone pads are also widely used in electronic products, automotive electronics, aerospace and other fields, providing reliable solutions for various equipment that require efficient heat dissipation.
How to use thermal conductive silicone gasket in charging pile
Before installing the thermal conductive silicone pad, make sure there is no dirt on the contact surface between the electronic component and the gasket to maintain the gasket's self-adhesion and thermal conductivity。
- For large-area gaskets, avoid lifting from the edge to prevent deformation due to uneven force. This is not required for small-area gaskets.
- After tearing off the protective film, accurately align the thermal conductive silicone pad with the gap between the electronic components inside the charging pile and the heat sink or casing, slowly place it, and push it with a flat tool to avoid bubbles.
- If bubbles are encountered, lift one end of the gasket and repeat the placement or use a hard plastic sheet to gently wipe away the bubbles, making sure to use moderate force.
- Apply appropriate pressure to make the thermal conductive silicone pad fit tightly inside the charging pile, and let it stand for a while to ensure it is firmly fixed.
- Maintenance and care of thermal conductive silicone pad
To ensure the long-term stable operation of the silicone thermal pad for new energy vehicle charging piles, the charging piles should be cleaned and maintained regularly. Avoid accumulating dust or debris on the thermal silicone pad to avoid affecting its thermal conductivity. At the same time, regularly check the fit of the thermal silicone pad. If looseness or deformation is found, replace it with a new thermal silicone pad in time.
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