Copper C101 Chemical Composition
Cu C101 is highly resistant to corrosion in seawater environments and has good resistance to acetic and sulfuric acids. Zinc in the alloy gives it higher resistance to atmospheric oxidation than other copper alloys such as brass or bronze.
| % | C101 |
| Others (Total) | 0.0-0.10 |
| Copper (Cu) | Balance |
Cu C101 Physical Properties
C101 Copper has a density of 8.89 g/cm3 and a melting point of 1083°C (1981°F). Cu C101 is an extremely malleable metal that can be formed into various shapes without losing strength. It also has excellent thermal and electrical conductivity, making it ideal for many different applications.
Cu UNS C11000 Mechanical Properties
Copper C11000 has excellent mechanical properties such as high tensile strength, yield strength, flexibility, elongation at breakage, fatigue strength, shear modulus, and modulus of elasticity. These make it suitable for engineering components that withstand high loads or stress over time.
Copper C101 Specifications
ASTM B1, B2, B8, B48, B272, B298, F68
AMS 4700
Federal QQ-W-343
Copper UNS C11000 Uses
C11000 Copper is used extensively in engineering components due to its excellent physical and mechanical properties. It is commonly used in automotive parts such as engine components or transmission housings; electrical components such as circuit boards; plumbing systems; heat exchangers; valves; bearings; fasteners; screws; tanks; pipes; fittings, wires, and cables, etc., due to its excellent thermal conductivity and electrical conductivity properties.
Corrosion Resistance
Zinc in the alloy makes it highly corrosion-resistant in most environments, including saline water. It does not corrode easily, even when exposed to air or moist conditions for long periods. This makes it particularly suitable for outdoor use where exposure to weathering could lead to corrosion issues with other metals like aluminum or steel.
Heat Treatment
Heat treatment can improve the hardness and tensile strength of C11000 Copper by increasing its yield strength by up to 40%. This makes it suitable for applications with high loads or stress over time, such as engine components or fasteners used in construction projects.







