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| Markenname: | Wuxi Slast/Sylaith Special Steel Co., LTD |
| Modellnummer: | C10400 |
| MOQ: | 100 kg |
| Lieferzeit: | 7-15 Tage oder nach Bedarf |
| Zahlungsbedingungen: | 30% TT-ANZAHLUNG IM VORAUS 70% RESTBETRAG PER TT VOR DE |
| Attribute | Specification |
|---|---|
| Product Name | Pure Red Copper Rod / Bright Copper Bar |
| Brand Name | C10400 |
| Model Number | C10400 |
| Material Type | Copper Alloy |
| Primary Composition | Cu (Min) ≥99.9% |
| Common Grades | C10400, T2, C11000, CuBe2 (C17200 available) |
| Shape | Round Bar (Custom shapes available) |
| Length | Fully Customized |
| Processing Services | Bending, Cutting, Decoiling, Punching, Welding |
| Key Properties | High Conductivity, Excellent Ductility, Corrosion Resistance, Machinable |
| Place of Origin | Jiangsu, China |
| Applicable Standards | ASTM B187, EN 12163, JIS H3250, and other customer-specified standards |
Our C10400 Copper Rods and Bars are precision-engineered from 99.9% pure electrolytic copper, offering exceptional electrical and thermal conductivity. Designed for demanding industrial applications, these red copper bars are highly malleable and can be easily customized through welding, bending, and cutting processes. Ideal for creating electrical components, fasteners, and machined parts, they provide superior ductility, corrosion resistance, and excellent machinability. We supply a full range of customizable sizes (including round shapes) to meet your specific project requirements, adhering to international standards like ASTM and EN.
Electrical Industry: Perfect for electrical connectors, busbars, terminals, and switchgear components due to unmatched conductivity.
Machinery & Automation: Used for manufacturing precision machined parts, fasteners, bearings, and gears that require durability and wear resistance.
Construction: Applied in architectural elements and plumbing fittings thanks to its corrosion resistance and formability.
Electronics: Suitable for semiconductor leads, connectors, and other critical electronic components where pure, reliable conductivity is essential.
General Fabrication: An ideal raw material for custom projects requiring welding, bending, and cutting to create specific prototypes or end-use parts.
Electrical and Thermal Conduction: The high purity (99.9% Cu) means the atomic lattice has a vast number of free electrons. These electrons move easily when a voltage is applied, facilitating excellent electrical current flow with minimal resistance (high conductivity). The same mechanism allows for efficient heat transfer, making it suitable for heat sinks and thermal management systems.
Ductility and Malleability: The metallic bonds in copper allow atoms to slide past one another without breaking. This property enables the rods and bars to be easily bent, welded, and shaped into complex forms without cracking, which is crucial for custom fabrication.
Machinability: Copper's relatively soft nature allows it to be cut and punched with precision, producing smooth finishes and complex geometries required for high-tolerance mechanical parts.
A: Both are high-conductivity copper grades with very similar properties (Cu ≥99.9%). The primary difference is often trace element content as defined by different standards (ASTM vs. others). For most practical applications involving conductivity and formability, they are interchangeable. C11000 (ETP Copper) is one of the most common general-purpose grades.
A: Yes. Copper rods can be supplied in various tempers, such as soft (annealed), half-hard, and full-hard. The temper affects the metal's yield strength and malleability. We can customize the supply based on your machining or forming requirements.
A: We offer comprehensive processing services including bending, precision cutting, decoiling, punching, and welding. This allows us to supply finished components or pre-fabricated parts, saving you time and cost on secondary operations.
A: Yes. We can supply Material Test Certificates (MTC) that verify the chemical composition and physical properties of the copper rods, ensuring they meet the specified standards like ASTM B187.
A: Pure copper (like C10400) offers the highest electrical and thermal conductivity. It is chosen when maximum conductivity is the primary requirement. Brass (a copper-zinc alloy) is stronger, harder, and has better machinability but lower conductivity. The choice depends on the application's priority: conductivity (pure copper) vs. strength/machinability (brass).
