Copper-Manganese Intermediate Alloy (CuMn30)

Product Overview
Copper-manganese intermediate alloy (CuMn30) is a high-purity copper alloy primarily used to add manganese during the smelting of copper alloys. The addition of manganese improves the properties of the copper alloy, particularly enhancing its toughness. Copper-manganese alloys are typically used to improve the mechanical properties of the alloy, prevent the burning and melting issues associated with pure copper’s high melting point, and solve problems such as large density and easy segregation. It is widely used in non-ferrous metallurgy as an additive or functional material such as deoxidizers, degassers, and desulfurizers.

Key Features

• Provides stable addition of manganese to copper alloys.
• Improves the mechanical properties of copper alloys, especially enhancing toughness.
• Effectively prevents burning and melting problems associated with the high melting point of pure copper.
• Avoids segregation within the alloy, improving uniformity.
• Widely used as a functional additive in deoxidation, degassing, and desulfurization processes in metallurgy.

Applications

• Copper Alloy Smelting:Used to add manganese during the production of copper alloys, optimizing the mechanical properties of the alloy.
• Non-Ferrous Metallurgy:Used as a deoxidizer, degasser, desulfurizer, and other functional materials to improve the quality of alloys in the metallurgical process.
• Electrical Engineering:Used in the manufacture of high-strength, corrosion-resistant copper alloys for electrical equipment.
• Mechanical Manufacturing:Enhances the toughness and durability of copper alloys in the production of mechanical components.
• Electronics Industry:Used in the manufacture of electronic components and electrical connectors, improving performance and reliability.