410 Stainless
410 / 1.4006 stainless is the basic 12% chromium grade of martensitic stainless steel and can be heat treated to obtain a wide range of mechanical properties. It offers a high strength and hardness coupled with a good corrosion resistance.
This alloy can be used up to 1200ºF (649ºC) where resistance to scaling and oxidation is required and remains magnetic in both the annealed and heat treated conditions.
Nominal Composition
|
Iron |
Rem |
|
Chromium |
12.50% |
|
Nickel |
0.5% |
|
Silicon |
0.3% |
|
Carbon |
0.12% max |
Related Specifications
|
BS970 410 S21 |
UNS S41000 |
|
BS EN 10088 |
1.4006 |
Key Features
-
High strength levels
-
Good corrosion resistance
-
Resistance to scaling and oxidation up to 649°C
Typical Physical Properties
|
Melting Point |
1529°C |
|
Density |
7.74 g/cm³ |
|
Thermal conductivity |
24.9 W/m°K |
|
Thermal expansion coefficient |
9.9 x 10-6 |
|
Electrical resistivity |
0.057 microhm m |
|
Specific Heat |
0.46 J/Kg.°K |
|
Modulus of Elasticity |
200 GPa |
Fabrication Properties
|
Hot Workability |
Good |
|
Cold Workability |
Fair (in the annealed condition) |
|
Hot working temperature |
1093-1204°C |
|
Stress Relieving Temperature |
350-430°C |
|
Machinability |
Okay |
|
Welding |
Limited (post weld heat treatment needed) |
Typical Applications
It has been used for steam turbine buckets, blades, bucket covers, gas turbine compressor blades, nuclear reactor control rod mechanisms, valves, fasteners, shafting, pump parts, petrochemical equipment and machine parts.
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.