Why Choose Piercing Clamps For Copper-aluminum Wire Splicing?

The choice of conductor connection method in a power system directly affects the operational stability of the line. As a stripping-free connection device, the ipc connector establishes electrical contact with the conductor by piercing the insulation layer, a design that makes it perform well in copper-aluminum wire splicing scenarios.

Copper and aluminum have different physical properties, including different coefficients of thermal expansion and electrochemical properties. ipc electrical connectors employs a composite contact tooth design internally, with specially treated tooth material that can adapt to both the hardness of copper conductors and the ductility of aluminum conductors. The connection cavity is partitioned, providing independent crimping spaces for different metal materials, reducing electrochemical corrosion caused by direct contact between dissimilar metals.

The cable piercing connector bolt torque system is precisely calculated, and the applied pressure is evenly distributed to the conductor surface through the multi-tooth structure. This pressure distribution method forms a stable contact area for both copper and aluminum conductors, keeping the contact resistance within a safe range. The cable ipc connector housing is made of high-strength insulating material, which maintains mechanical strength in outdoor environments and ensures a long-term stable crimping state.