Response Analysis Of Energy Storage Connectors Under High Temperature Environment

Confirming the temperature rise behavior of energy storage connector under high-temperature conditions requires detailed calculations of thermal conductivity analysis and resistance loss. The internal contact surfaces, material thermal conductivity, and structural layout of battery storage connector all affect its temperature field distribution. As current increases, the Joule heat generated by storage connector accumulates internally and is conducted to the surrounding environment; the magnitude of the temperature rise in this process is closely related to the material's electrical conductivity and heat dissipation capacity. Refined design of the interface structure and material selection play a crucial role in controlling the heat accumulation trend.