Conductive And Thermal Conductive Dual Optimal Terminal Block: The Core Connection Component For Efficient Transmission
As a key component of circuit connection, the conductivity and thermal conductivity of terminal blocks directly determine the efficiency and safety of equipment operation. With innovative materials and structural design, the conductive and thermally conductive dual performance terminal blocks have broken through the bottleneck of traditional products and become the preferred connector for high-power and high-precision equipment. They are widely used in fields such as new energy, industrial control, and electronic communication.
In terms of material selection, the product uses high-purity copper as the substrate, which has excellent conductivity and thermal conductivity. Compared with ordinary brass substrate, the conductivity is improved by more than 30%, and the thermal conductivity can reach 401W/(m · K). At the same time, the surface is treated with silver plating technology, effectively reducing contact resistance, minimizing heat loss during current transmission, further enhancing the dual properties of conductivity and thermal conductivity, and possessing good oxidation and corrosion resistance, extending the service life.
In terms of structural design, the terminal adopts an integrated stamping process to ensure maximum contact area and avoid local overheating caused by poor contact. An internal heat dissipation channel is added to accelerate heat dissipation, allowing the terminal to maintain temperature stability even under high load operation and prevent circuit failures caused by overheating. In addition, the terminal adopts a snap on quick connection structure, which is easy to install, firmly connected, and balances practicality and safety.
This terminal block performs outstandingly in scenarios such as new energy vehicle charging stations, industrial frequency converters, and precision electronic instruments. It can achieve efficient transmission of current and quickly dissipate the heat generated by equipment operation, ensuring long-term stable operation of the equipment. Its dual excellent performance not only improves equipment reliability, but also provides strong support for energy conservation and consumption reduction in related fields.
