6101 ALUMINUM BUSBAR
6101 Aluminum Busbar Introduction
6101 aluminum busbar is a high-strength conductive material. Its characteristics and parameters can be introduced from the following aspects:
1. Basic characteristics
Conductivity:
6101 aluminum alloy has good conductivity, usually reaching 55% IACS (International Annealed Copper Standard) conductivity guarantee, suitable for power transmission and distribution.
Corrosion resistance:
The alloy exhibits good corrosion resistance, can remain stable under a variety of environmental conditions, and prolongs service life.
Weldability:
6101 aluminum alloy has excellent welding performance, which is convenient for connection work during processing and installation
2.Chemical composition
The chemical composition of 6101 aluminum alloy is strictly controlled to ensure its excellent performance. The main elements and contents are as follows:
Aluminum (Al): | Balance |
Silicon (Si): | 0.30~0.7% |
Iron (Fe): | ≤0.50% |
Copper (Cu): | ≤0.10% |
Manganese (Mn): | ≤0.03% |
Magnesium (Mg): | 0.35~0.8% |
Chromium (Cr): | ≤0.03% |
Zinc (Zn): | ≤0.10% |
Boron (B): | ≤0.06% |
Titanium (Ti): | Unspecified |
3. Physical and Mechanical Properties
Tensile Strength:
Depending on the specific processing and heat treatment status, the tensile strength of 6101 aluminum alloy will vary, but it can usually meet the requirements of high-strength busbar conductors.
Elastic Modulus:
The higher elastic modulus enables the 6101 aluminum busbar to maintain good shape stability when subjected to external forces.
Length and Section:
The length and cross-sectional dimensions of the busbar can be customized according to specific needs. Common cross-sectional forms include rectangular, circular, etc.
4. Application fields
6101 aluminum busbars are widely used in power, electronics, transportation and other fields, including but not limited to:
Processing high-strength busbar conductors for power transmission and distribution systems.
Aluminum for automobile bodies is highly favored due to its good conductivity and corrosion resistance.
Occasions that require high strength and good conductivity, such as solar brackets and building curtain walls.
5 Other parameters
Surface treatment: Spraying, anodizing and other surface treatments can be performed as needed to improve the corrosion resistance and aesthetics of the busbar.
Processing methods: Various processing methods such as extrusion, cutting, welding, etc. can be used to meet the needs of different shapes and sizes.
In summary, 6101 aluminum busbar is widely used in many fields due to its excellent conductivity, corrosion resistance and weldability. Specific parameters such as length, cross-sectional size, etc. can be customized according to actual needs.