Grade Designation & Standards
Standard Grade: CuSn6 (Phosphor Bronze)
International Equivalents:
Applicable Standards:
GB/T 5231-2012 (Wrought Copper Alloys)
ASTM B103 (U.S. Strip Standard)
EN 12163 (European Standard)
Product Features
1. Ultra-High Elasticity & Fatigue Resistance: Elastic limit ≥500 MPa, fatigue life >1 million cycles, ideal for high-frequency elastic components.
2. Exceptional Wear Resistance: Hardness (HV 150-250) surpasses low-tin bronzes, approaching beryllium bronze performance.
3. Superior Corrosion Resistance: Resists atmospheric, seawater, and weak acid corrosion (corrosion rate ≤0.005 mm/a).
4. Precision Machinability: Supports cold/hot working, welding, and plating; surface finish up to Ra 0.2μm.
Common Product Forms & Dimensions
Product Form | Size Range | Delivery Condition |
Strip | Thickness: 0.05-2.0mm, Width ≤600mm | Soft (M), Hard (H) |
Rod | Diameter: 5-150mm, Length: 2-6m | Drawn, Hot-Rolled |
Wire | Diameter: 0.05-8.0mm | Coiled or Straight |
Tube | OD: 3-200mm, Wall Thickness: 0.5-20mm | Cold-Drawn, Half-Hard |
Chemical Composition
Element | Content (%) | Function/Limit |
Cu | Balance (≥93.5%) | Base material, ensures conductivity and corrosion resistance |
Sn | 5.5-7.0 | Enhances elasticity, wear resistance, and corrosion resistance |
P | 0.1-0.35 | Deoxidizer, refines grain structure, prevents tin segregation |
Pb | ≤0.02 | Strictly controlled to avoid brittleness |
Impurities | ≤0.1 | Ensures high material purity |
Physical Properties
Property | Value | Remarks |
Density | 8.8-8.9 g/cm³ | High density for precision parts |
Electrical Conductivity | ~13% IACS | Suitable for electrical components |
Thermal Conductivity | 60-70 W/(m·K) | Moderate heat dissipation |
Thermal Expansion | 17.6×10⁻⁶/°C (20-200°C) | Excellent thermal stability |
Melting Point | 995-1020°C | Limited castability |
Mechanical Properties
Property | Soft (M) | Hard (H04) |
Tensile Strength (σb) | 400-600 MPa | 650-850 MPa |
Elongation (δ10) | ≥35% | ≥5% |
Hardness (HV) | 90-180 | 200-300 |
Elastic Modulus | ≥115 GPa | Critical for high-end springs |
Core Advantages
1. Optimal Performance Balance: Strength, elasticity, and corrosion resistance tailored for precision industrial applications.
2. Long Service Life: Exceptional fatigue resistance (>1 million cycles).
3. Surface Treatment Compatibility: Supports gold/silver plating, passivation, and coatings.
Product Applications
1. Electronics:
5G Devices: RF connector springs, EMI shielding components.
Semiconductor Testing: Probe card springs, chip contact points.
2. Mechanical Engineering:
Aerospace: Hydraulic valve plates, gyroscope springs (high-pressure and fatigue resistance).
Medical Devices: Endoscope springs, surgical tool joints (biocompatibility requirements).
3. Automotive:
High-Pressure Fuel Systems: Precision springs, sealing rings (corrosion and pressure resistance).
4. Marine Engineering:
Deep-Sea Equipment: Seawater-resistant valves, sensor components (longevity in harsh environments).
Processing Guidelines
1. Annealing: Post-cold working, anneal at 650-750°C for 1-2 hours to relieve stress.
2. Welding: Laser or electron beam welding preferred to minimize heat-affected zone brittleness.
3. Machining: Cutting speed ≤50 m/min; use carbide tools with oil-based coolant.
4. Surface Preparation: Clean surfaces thoroughly before plating to ensure coating adhesion.
Key Application Scenarios
Precision Springs: Medical devices, optical instruments.
Wear-Resistant Components: Bearings, gears, bushings.
Corrosion-Resistant Systems: Seawater desalination plants, chemical valves.
FAQs
Q: How does CuSn6 differ from CuSn5?
A: CuSn6 has higher tin content (5.5-7.0% vs. 4.5-5.5%), offering superior elasticity and wear resistance but at a higher cost.
Q: Is CuSn6 suitable for high-temperature environments?
A: Long-term use is recommended ≤150°C; short-term tolerance up to 250°C. Avoid exceeding 300°C to prevent softening.
Q: How to prevent edge cracking during cold rolling?
A: Limit single-pass deformation to ≤15%, perform stress-relief annealing, and ensure smooth roller surfaces.
Standard References
Chemical Composition: GB/T 5231-2012, ASTM B103.
Mechanical Testing: EN 12163, JIS H3270 (Rod Standard).
Processing: ISO 426-2 (International Manufacturing Guidelines).
Note: Data consolidated from national standards and industry technical documents. Actual performance may vary slightly due to manufacturing processes. Always refer to supplier test reports for precise specifications.
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