Cold plate cooling technology is a heat dissipation method that uses liquid cooling plates as heat transfer media. Compared with traditional fan cooling or heat pipe cooling, cold plate cooling technology has unique advantages. First of all, cold plate cooling technology does not depend on the external environment and is not affected by air flow, so it can also achieve excellent heat dissipation in closed environments or high temperature environments. Secondly, cold plate heat dissipation technology can achieve a more uniform temperature distribution and avoid local overheating or overcooling, thus improving the stability and reliability of the equipment. In addition, cold plate heat dissipation technology can also be combined with other heat dissipation methods to form a more complex heat dissipation system to further improve heat dissipation efficiency.
The implementation of cold plate heat dissipation technology mainly relies on the thermal conductivity of liquid cooling plates. Typically, aluminum alloys or copper alloys are used as cold plate materials. These metals have good thermal conductivity and strength and can effectively transfer heat. On the surface of the cold plate, the heat dissipation area is usually increased in various ways, such as using heat pipes, to increase heat conduction and dissipation. At the same time, the design of the cold plate is also very flexible and can be customized according to specific application requirements, including size, shape, heat dissipation area, etc., to achieve the best heat dissipation effect.