The new copper-aluminum transition clamp, by introducing a T2 copper rod cold extrusion forging process, utilizes the core material science principle of "grain refinement" to fundamentally improve material density and structural strength, building an inde
The new transition clamp uses laser welding or silicone rubber sealing rings in key parts to achieve a fully enclosed structure.
The new copper-aluminum transition clamp features an embedded structure with interlocking textures on the contact surface between the copper and aluminum layers, increasing anti-peeling ability through mechanical interlocking.
Optimizing the design of contact surfaces requires a comprehensive approach from multiple dimensions, including material selection, structural innovation, process control, and protective measures.
In high-voltage power systems, connecting copper and aluminum conductors has long been a technical challenge. Copper and aluminum not only have different electrical conductivities, but their coefficients of thermal expansion also differ significantly. Whe
In power transmission and distribution systems, the connection between copper and aluminum conductors has always been a technical challenge.