Home / Products / Aluminum Rod / 6000 Series
◆TYPE: Extruded aluminium rod
◆TEMPER: T6
◆DIAMETER: 10-200mm (ready stock)
◆LENGTH: 3000mm, Cut to short size ( φ≥ 30mm )
◆OTHERS: Material traceability, Mass-stock,Fast shippment
Chemical composition of 6101 aluminum alloy
●Aluminum (Al): balance
●Silicon (Si): 0.3-0.7%
●Ferrum (Fe): 0.5% max
●Copper (Cu): 0.1% max
●Manganese (Mn): 0.03% max
●Magnesium (Mg): 0.35-0.8%
●Chromium (Cr): 0.03% max
●Zinc (Zn): 0.1% max
●Titanium (Ti): 0.1% max
●Other elements: Each 0.03% max, Total 0.1% max
Typical mechanical properties of 6101 T6 aluminum
For aluminum rod 6063 T6:
Grade | Temper | Tensile Strength | Yield strength | Elongation | Hardness |
6063 | T6 | 240 | 215 | 12 | 73 |
(The values are typical or min values,for reference only.)
6101 aluminum round bar application
6101 aluminum round bar is a heat-treatable alloy belonging to the 6000-series aluminum alloys, known for its excellent electrical conductivity, moderate strength, and corrosion resistance. It contains magnesium and silicon as its primary alloying elements, which contribute to its high strength-to-weight ratio and good formability.
Common Applications of 6101 Aluminum Round Bar:
1.Electrical Conductors and Bus Bars:
6101 aluminum is commonly used in the manufacture of electrical conductors, such as bus bars, electrical connectors, and power distribution systems. Its high electrical conductivity makes it an ideal choice for power transmission and distribution lines, especially in industries like electric power generation and industrial power systems.
2.Power Transmission and Distribution:
In power transmission applications, 6101 aluminum round bars are often used for the fabrication of overhead power lines and substation connectors. Its lightweight nature and excellent electrical properties make it suitable for high-voltage applications, where energy efficiency is critical.
3.Railway Electrification Systems:
This alloy is widely used in railway electrification for the creation of contact wires, catenary systems, and supporting components. It helps maintain an efficient and reliable electrical connection for electric trains and metro systems.
4.Transformer Windings:
6101 aluminum round bar is also used in the production of transformer windings due to its high electrical conductivity. It provides an economical alternative to copper while maintaining good performance in electrical transformers and distribution transformers.
5.Switchgear and Substation Components:
The alloy is often used in switchgear and substation equipment as it provides excellent conductivity and corrosion resistance. Its lightweight nature helps reduce the overall system weight while ensuring high performance.
6.Heat Exchangers:
6101 aluminum is also used in the manufacture of heat exchangers where high thermal conductivity is important. This application can be found in industrial cooling systems, air conditioning units, and automotive heat exchangers.
7.Machinery Components:
In industrial machinery and equipment, 6101 aluminum round bars are used in applications that require both strength and conductivity. It is often chosen for components in welding machines, pumps, and other heavy-duty machinery.
8.Automotive Components:
This aluminum alloy is also used in the automotive industry for bus bars, wiring systems, and other electrical connectors within electric vehicles (EVs) due to its good electrical conductivity and corrosion resistance. The lightweight nature of the alloy helps to reduce the overall weight of vehicles, improving energy efficiency.
Conclusion:
6101 aluminum round bar is a highly versatile material, offering a combination of good electrical conductivity, moderate strength, and excellent corrosion resistance. Its primary use is in electrical applications, including bus bars, power distribution systems, and railway electrification systems, but it also finds applications in heat exchangers, automotive, and machinery components. Its balance of conductivity and strength makes it a popular choice for many industries that require both efficiency and reliability in electrical and structural applications.