International Common Grades:
China: T2 (GB/T 5231-2012)
America: C11000
Japan: C1100
Russia: M1
UK: C102
High Purity:
Cu+Ag content ≥99.90%, with very low impurity content.
Excellent Properties:
Electrical Conductivity: Electrical conductivity ≥56 MS/m (approximately 97-101% IACS).
Thermal Conductivity: Thermal conductivity ≥388 W/(m·K).
Corrosion Resistance: Suitable for chemical, marine, and other corrosive environments.
Processing Properties: Good ductility, easy to cold working, soldering and brazing, and surface treatment. However, resistance welding and gas shielded welding are not suitable.
Limitations: Susceptible to "hydrogen embrittlement," and processing or use in high-temperature (>370°C) reducing atmospheres can cause embrittlement.
Product Form | Specification Range | Standards Applied |
Bar | Diameter 3-80mm (Hard state Y/Soft state M) | GB/T 2059-2017 |
Tube | Outer diameter 1-100mm, Wall thickness 0.5-10mm | GB/T 1527-2017 |
Strip/Plate | Thickness ≥0.3mm, Width ≤600mm | GB/T 2059-2017 |
Wire/Cable | Diameter 0.1-10mm | GB/T 5231-2012 |
Irregular Shape | Custom sizes as per customer requirements | Company standards or agreements |
Note: There are significant performance differences between hard (Y) and annealed(M), and the choice should depend on the specific application.
Component | Cu+Ag | Sb | Fe | S | Bi | As | Pb | Other Impurities |
Content (%) | ≥99.90 | ≤0.002 | ≤0.005 | ≤0.005 | ≤0.001 | ≤0.002 | ≤0.005 | ≤0.1 |
Property | Value |
Density | 8.89-8.94 g/cm³ |
Electrical Conductivity | 97-101% IACS |
Electrical Resistivity | 0.0171-0.0178 μΩ·m |
Thermal Conductivity | 388 W/(m·K) |
Coefficient of Thermal Expansion | 17.64×10⁻⁶/K |
Specific Heat Capacity | 0.386 J/(g·K) |
Elastic Modulus | 115 GPa |
Condition | Tensile Strength (MPa) | Elongation (%) | Rockwell Hardness (HRF) |
Hard (Y) | ≥210-275 | ≥10-16 | ≥65 |
Annealed(M) | ≥200 | ≥40 | - |
Note: Y is suitable for high strength requirements, while M is suitable for applications requiring high ductility.
High Electrical/Thermal Conductivity:
Ideal material for electrical power transmission and heat dissipation devices.
Corrosion Resistance:
Suitable for chemical pipelines, marine equipment, and harsh environments.
Ease of Processing:
Supports cold stamping, drawing, polishing, and other processes.
Electrical Electronics:
Wires, cables, switch contacts, transformer components.
Chemical Equipment:
Evaporators, reaction vessels, corrosion-resistant pipelines.
Automotive Manufacturing:
Radiators, fuel pipes, electrical connectors.
Construction and Decoration:
Roofing materials, artistic sculptures.
Hydrogen Embrittlement Prevention:
Avoid annealing or welding in a reducing atmosphere above 370°C.
Annealing Process:
It is recommended to use a neutral or oxidizing atmosphere, with temperatures controlled between 500-600°C.
Cold Processing Post-Treatment:
Soft materials need to be annealed to restore ductility.
A: Hydrogen embrittlement occurs when hydrogen permeates copper in high-temperature reducing atmospheres. This can be avoided by controlling the oxygen content in the processing environment.
A: Y is used for applications requiring high strength (e.g., screws), while M is used for components that require deep stamping (e.g., radiators).
A: Yes, it has excellent surface finish and electroplating properties.
Chemical Composition: GB/T 5231-2012.
Bar/Strip: GB/T 2059-2017.
Tube: GB/T 1527-2017.
Disclaimer: This datasheet is compiled from public standards and industry materials. Actual parameters may vary slightly due to production processes. Specific values should be verified with the supplier's test report. For complete technical documentation, please refer to the corresponding national standards or contact the supplier.
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