2011
Grade 2011 aluminium is an age hardenable alloy noted for its free-machining characteristics and good mechanical properties. The 2011 alloy has a small addition of copper and lead that improve the strength and machinability respectively.
The free machining properties of the 2011 alloy allows the use of either carbide or high-speed tool steel tooling and makes it an ideal choice for use on intricate designs or for complex and detailed parts. It can also sometimes be machined using the same tooling as for free machining brass without the need for alteration. The material can also be cold formed by bending (but this is usually carried out prior to age hardening and the development of higher properties).
The drawback of the added strength and machinability is that the 2011 has a poor corrosion resistance. This means parts made from 2011 tend to be anodised to provide an additional surface protection (If higher levels of corrosion resistance are required, 6262 could be a suitable replacement). Further to this, welding is not recommended but as it is used mainly for machined parts there is rarely a need to weld this alloy.
Chemical Composition
|
Aluminium |
Rem |
Silicon |
0.4 max |
|
Copper |
5.0 - 6.0 |
Iron |
0.7 max |
|
Bismuth |
0.2 - 0.6 |
Zinc |
0.3 max |
|
Lead |
0.2 - 0.6 |
Others |
0.15 max |
Related Specifications
|
2011 |
A92011 |
BS4300 |
|
BS FC1 |
DIN WS 3.1655 |
CB60 |
|
AlCu6BiPb |
A-U5PbBi |
AlCuBiPb |
Key Features
- Excellent Machining Properties
- Good Anodising Capability
- Reasonable Strength Levels after heat treatment.
Typical Physical Properties
|
Melting Range |
540-640°C |
|
Density |
2.83 g/cm³ |
|
Thermal conductivity |
163 W/m°K |
|
Thermal expansion coefficient |
23 x 10-6 |
|
Electrical Conductivity |
39.2 IACS |
|
Electrical resistivity |
0.044 microhm m |
|
Modulus of elasticity |
71 GPa |
Fabrication Properties
|
Cold Formability |
Fair |
|
Machinability |
Excellent |
|
Soldering |
Fair |
|
Brazing |
Poor |
|
Oxy-acetylene welding |
Poor |
|
Gas-shielded arc welding |
Poor |
|
Resistance welding |
Poor |
Typical Applications
Often used for mass produced parts manufactured by repetition machining such as fasteners, appliance parts & trim, Automotive components and trim, screw machine products, atomizer and hose parts, pipe stems, and tube fittings.
This technical information is given by John Hood & Co.without charge and the user shall employ such information at their own discretion and risk. For more detailed technical advice on temper selection, fabrication, joining, machining, physical and mechanical data please contact us as space does not permit the listing of every feature of the material.