Copper C11000 Carbon Steel SA516 GR.70 Explosive Welding Bimetallic Clad Plates

Copper and carbon steel explosive welding bimetallic clad plates are an important innovation in the field of materials engineering. These plates offer a unique combination of properties that make them highly useful in a variety of applications.

Explosive welding Clad metals are a low-resistance, high-strength joint that allows the welding of two dissimilar metals. They are for use in high-current, high-temperature, and mechanical stress environments.

Cladding metal: SB171 C70600, BFe30-1-1, T1, T2, HSn62-1...

Basement: Q345R, Q235B, 16MnDIII, SA516 GR.70, SA266 GR.2....

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Equipments: Reduction Furnace...REACTOR

Explosive welding clad plates:

1. Corrosion resistance: Copper is highly corrosion-resistant, especially in environments where there is exposure to moisture, chemicals, or saltwater. By bonding copper to carbon steel, the resulting clad plate offers enhanced corrosion resistance compared to plain carbon steel.
   • For example, in marine applications or chemical processing plants, these plates can be used to protect against corrosion and extend the service life of equipment and structures.
2. Electrical conductivity: Copper is an excellent conductor of electricity. The copper layer on the clad plate provides high electrical conductivity, making these plates suitable for applications where electrical conductivity is important, such as in electrical power transmission and distribution systems.
   • For instance, copper-clad steel conductors can be used in overhead power lines or underground cables.
3. Thermal conductivity: Copper also has high thermal conductivity. This property can be beneficial in applications where heat transfer is required, such as in heat exchangers or cooling systems.
   • The combination of copper and carbon steel in clad plates can provide a balance of thermal conductivity and mechanical strength.
4. Strength and durability: Carbon steel provides high strength and durability. The carbon steel layer in the clad plate gives the material the necessary mechanical strength to withstand heavy loads and harsh operating conditions.
   • For example, in structural applications or industrial machinery, the combination of copper and carbon steel can offer a strong and reliable material solution.
5. Cost-effectiveness: Using bimetallic clad plates can be a cost-effective alternative to using solid copper or other expensive materials. By combining a thin layer of copper with carbon steel, the overall cost of the material can be reduced while still maintaining the desired properties.
   • This can be particularly advantageous in large-scale applications where material costs can be a significant factor.