Manufacturing Techniques for High-Performance Copper-Coated Conductors

Copper-clad conductor‌ refers to a conductor in which a copper layer is applied to a base material, typically aluminum or steel. This type of conductor is used in various applications due to its unique properties and advantages.

Types of Copper-clad Conductors
‌ Copper-clad aluminum conductor (CCAC)‌: This type of conductor has an aluminum core with a copper cladding. It is used in applications that require high conductivity and flexibility, such as in power cables and transmission.

‌ Copper-clad steel conductor (CCSC)‌: This type of conductor has a steel core with a copper cladding. It is used in applications that require high mechanical strength and durability, such as in automotive wiring and electrical systems‌.

Advantages and Applications

Copper-clad conductors offer several advantages over traditional copper or aluminum conductors:

‌Cost-effectiveness‌: The copper cladding provides the conductivity benefits of copper while reducing the overall material cost‌.

‌Mechanical Strength‌: The steel or aluminum core provides additional mechanical strength, making these conductors suitable for various applications where durability is important‌.

‌Electrical Properties‌: The copper cladding ensures excellent electrical conductivity, while the core material can be optimized for specific application requirements‌.

Manufacturing Process and Properties

The manufacturing process involves applying a thin layer of copper to the base material through various techniques such as electroplating or hot dipping. This process ensures a strong bond between the copper and the base material. The properties of the conductor depend on the thickness of the copper cladding and the type of base material used‌.

Research and Development

Research on copper-clad conductors focuses on improving their electrical and mechanical properties through various processing techniques. Severe plastic deformation and annealing have been studied to optimize the microstructure and properties of these conductors, resulting in enhanced .