Thermal interface materials (TIM) have many significant advantages, including high thermal conductivity, good filling performance, temperature resistance, insulation performance and environmental protection.
High thermal conductivity: The thermal conductivity of thermal interface materials is generally above 0.5W/mK, which can effectively transfer heat to the outer surface of the equipment and ensure the normal operation of the equipment.
Good filling performance: These materials can fill irregularly shaped surfaces, reduce the air layer on the heat dissipation surface, and improve heat dissipation efficiency.
Good temperature resistance: Thermal conductive interface materials generally have high temperature resistance and can adapt to temperature changes in different use environments, improving the stability and life of the equipment.
Insulation performance: Most thermally conductive interface materials are required to be insulated to meet the needs of different scenarios, with high withstand voltage levels and low dielectric constant.
Environmental protection: Many thermal interface materials are environmentally friendly during production and use and meet environmental protection requirements.
