Grade 1060 Transformer Aluminum Strip for Electrical Industry

1. Aluminum Grade 1060 Basics

• Composition: 99.6% pure aluminum, with trace elements (<000000>le;0.35% Fe, <000000>le;0.25% Si).

• Series: Part of the 1xxx series, known for high purity and excellent electrical/thermal conductivity.

2. Key Properties

• Electrical Conductivity: ~61% IACS (International Annealed Copper Standard), making it suitable for electrical applications.

• Thermal Conductivity: High, aiding in heat dissipation.

• Mechanical Properties:

  • Soft and ductile, especially in annealed condition.

  • Lower tensile strength compared to copper or aluminum alloys (e.g., 1350), requiring careful handling to avoid deformation.

  • Prone to creep under sustained mechanical stress.

3. Applications in Transformers

• Cost-Effective Windings: Used in distribution transformers where cost and weight savings outweigh the need for compact size.

• Formability: Easily wound into coils due to its ductility.

• Thermal Management: Effective heat dissipation reduces overheating risks.

4. Advantages

• Lower Cost: Cheaper than copper and some aluminum alloys.

• Lightweight: Reduces transformer weight, beneficial for large installations.

• Corrosion Resistance: Natural oxide layer protects against environmental degradation.

5. Challenges and Considerations

• Lower Conductivity: Requires larger cross-sectional areas compared to copper for equivalent current capacity.

• Mechanical Strength: Joints may loosen over time due to creep; specialized connectors or welding (e.g., ultrasonic) are recommended.

• Oxidation at Connections: Requires anti-oxidant compounds or plating to maintain conductivity at terminals.

6. Comparison with Other Grades

• vs. 1350 aluminum :

  • 1350 (99.5% Al) is optimized for electrical use, with marginally lower purity but enhanced conductivity (62% IACS).

  • 1060 may be chosen for its slightly lower cost or regional availability.

• vs. Copper:

  • Copper offers superior conductivity (100% IACS) but is heavier and more expensive.

7. Standards and Best Practices

• Standards: Refer to IEC 60118 or ASTM B230/B231 for electrical conductor specifications.

• Fabrication: Annealing improves formability; proper joint design mitigates creep risks.