5083
Grade 5083 aluminium is a non-heat treatable alloy which has additions of magnesium, manganese and chromium that contribute to the material’s exceptional performance in extreme environments. Grade 5083 offers a high resistance to attack in both seawater and industrial chemical environments.
Commonly used in plate form Alloy 5083 also retains its good strength levels after welding, and offers the highest strength of the non-heat treatable alloys. This grade is ideal for lower temperature applications, however, 5083 is not recommended for use in temperatures exceeding of 65°C.
Chemical Composition
Aluminium |
Rem |
Silicon |
0.4% max |
Copper |
0.1% max |
Iron |
0.4% max |
Manganese |
0.4 – 1.0% |
Magnesium |
4.0-4.9% |
Zinc |
0.25% max |
Titanium |
0.15% max |
Chromium |
0.05-0.25% |
Total Others |
0.15% max |
Related Specifications
BS1470: 5083 |
N8 / NE8 |
A95083 |
GM41 |
Al Mg4.5 Mn0.7 |
AlMG4.5Mn |
Key Features
- Good Mechanical Properties
- Very good corrosion resistance in marine and chemical environments
- Good weldability
Typical Physical Properties
Melting Range |
580-645°C |
Density |
2.67 g/cm³ |
Thermal conductivity |
109 W/m°K |
Thermal expansion coefficient |
24.5 x 10-6 |
Electrical Conductivity |
28.3 IACS |
Electrical resistivity |
0.061 microhm m |
Modulus of elasticity |
71 GPa |
Fabrication Properties
Cold Formability |
Average |
Machinability |
Poor |
Brazing |
Poor |
Soldering |
Poor |
Inert Gas Welding |
Excellent |
Resistance Welding |
Excellent |
Typical Applications
Alloy 5083 is typically used in many industries including components for shipbuilding, rail cars, vehicle bodies, tipper truck bodies, mine skips and cages and pressure vessels.
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.