Plain Aluminum Sheet A1050 1060
The aluminum sheets of grades A1050 and A1060 are widely recognized for their excellent properties, making them indispensable in various industries.
1. What Are A1050 and A1060 Aluminum Sheets?
- A1050 Aluminum Alloy: A highly corrosion-resistant aluminum alloy known for its excellent workability and ductility.
- A1060 Aluminum Alloy: Similar to A1050, the A1060 alloy has a high level of purity, commonly achieved in industries requiring exceptional thermal and electrical conductivity.
Both alloys belong to the 1000 series aluminum, notable for their chemical composition of 99% or higher aluminum content.
Functions and Characteristics
Aluminum sheets A1050 and A1060 are characterized by:
- High ductility: Ease of bending and forming in manufacturing processes.
- Excellent corrosion resistance: Making them suited for outdoor and moist environments.
- Superior thermal and electrical conductivity: Effectively utilized in electrical applications.
- Lightweight: Reducing total weight without compromising strength.
- Malleability: Capable of being shaped without losing integrity.
Applications of Plain Aluminum Sheet A1050 and A1060
The various applications of these aluminum sheets are a testament to their properties, including:
- Electrical conductors: Perfect for inverts, heat sinks, and power transmission lines due to high conductivity.
- Chemical and food processing industries: Utilized in tanks, containers, and pressure vessels owing to their corrosion resistance.
- Automotive industry: Deployment within framework, trims despite their light material future.
- Architecture and building: Used in facades, overhangs, and wraps, capitalizing on aesthetic properties without heavy weight costs.
- Cladding and signage: Increasing aesthetic appeal without tarnishing with environmental exposure.
Technical Specifications
The following table illustrates the critical technical specifications between alloys 1050 and 1060 aluminum sheets:
| Specification | A1050 | A1060 |
|---|---|---|
| Temper | H14, H24 • Planned form | H14, H24 • Planned form |
| Thickness Range (mm) | 0.5 - 10 | 0.5 - 10 |
| Width (mm) | Up to 2000 | Up to 2000 |
| Length (mm) | Customized options available | Customized options available |
Parameters
- Density: Common for both alloys is 2.70 g/cm³.
- Ultimate tensile strength:
- A1050: 70 - 150 MPa
- A1060: 85 - 150 MPa
- Yield strength (0.2% offset):
- A1050: 25 - 40 MPa
- A1060: 20 - 45 MPa
- Elongation (in 50 mm):
- A1050: ~8% (H14)
- A1060: ~8% to 40% (H14)
Chemical Composition
| Element | A1050 | A1060 |
|---|---|---|
| Aluminum | Minimum 99.5% | Minimum 99.6% |
| Copper | < 0.05% | - |
| Silicon | < 0.25% | < 0.20% |
| Iron | < 0.40% | < 0.30% |
| Zinc | < 0.10% | < 0.10% |
| Others | < 0.05% total | < 0.05% total |
Implementation Standards
Both grades A1050 and A1060 follow regulatory and performance breakdown models necessary for large-scale implementations. These standards include:
- ASTM B209: Standard Specification for Aluminum and Aluminum-Alloy Sheet and Plate
- EN 485: Aluminium and aluminium alloys Plate, sheet and strip for general engineering applications
Alloy Tempering Conditions
Temper Designations for both alloys will typically include:
- H14: Strain hardened materials that allow for dual accomplishing a solid option derived at - heighted mid-aged techniques for satisfactory durability towards expected temperatures.
Different tempering stages can alter the physical traits depending on traction settings applied during development.
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