Thermal conductive silicone has good thermal conductivity and can effectively conduct heat. This makes it a favored material in the field of heat dissipation, which can effectively improve the efficiency of heat transfer. It has a certain softness and malleability, making it easier to adapt to irregular surfaces or tight spaces. This characteristic makes thermally conductive silicone easier to apply in the heat dissipation structure of radiators, electronic components and other equipment.
Thermal conductive silicone is often used in the manufacture of radiators. Through its superior thermal conductivity, it can effectively conduct heat from the radiator to the external environment and improve the heat dissipation effect.
In the heat dissipation of electronic components, it is widely used to fill the gap between the electronic device and the heat dissipation device to improve the heat dissipation effect and prevent overheating damage to the components.
Compared with some traditional heat dissipation materials, thermal conductive silicone has higher thermal conductivity, can transfer heat more effectively and improve heat dissipation effect.
Because thermally conductive silicone has a certain degree of softness and plasticity and can adapt to various shapes and structures, it performs well in complex heat dissipation structures.
Although thermally conductive silicone performs well in general applications, its performance may be limited in extreme high-temperature environments and requires careful selection and use.
Compared with some traditional heat dissipation materials, the cost of thermally conductive silicone is higher, which may be a consideration in some cost-sensitive applications.