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Alloy 254 Stainless Steel
Penn Stainless inventory now includes Alloy 254 SMO (UNS S31254) in sheet, sheet coil, plate, round bar, processed flat bar and tubular products.
General Properties
Alloy 254 SMO is a very high end, molybdenum and nitrogen alloyed super austenitic stainless steel with low carbon content. It demonstrates outstanding resistance to pitting, crevice corrosion stress cracking, and corrosion fatigue uniform corrosion. Alloy 254 SMO is substantially stronger than the common austenitic grades, with strength nearly twice that of 300 series stainless steel. It is also characterized by high ductility and impact strength. With high levels of chromium, molybdenum, and nitrogen, Alloy 254 SMO is frequently used in high chloride environments, such as brackish water, seawater, pulp mill bleach plants, and other chloride process streams. In some applications it has even been found to be a more cost effective substitute for high nickel and titanium alloys.
Applications:
Due to its high levels of molybdenum and nickel, Alloy 254 SMO is frequently used in high chloride environments. Examples of applications that call for the used of Alloy 254 SMO include:
- Petroleum production
- Saltwater handling
- Food and chemical processing equipment
- Pulp mill bleach systems
- Flue gas desulphurization scrubbers
- Tall oil distillation columns
- Offshore oil & gas production equipment
- Desalination equipment
Standards:
- ASTM/ASME: UNS S31254
- EURONORM: FeMi35Cr20Cu4Mo2
- DIN: 2.4660
Corrosion Resistance
- Excellent resistance to pitting and crevice corrosion due to its high chromium, molybdenum, and nitrogen content
- Has a very low carbon content, which means there is very little risk of carbide precipitation during heating
- Possesses very good resistance in water containing chlorides, therefore, it is suitable for use in seawater as it can be exposed to it for prolonged periods without suffering from crevice corrosion
Weldability
- Possesses good weldability
- Should be done without pre-heating
- If correctly performed, there will be no need for any subsequent heat treatment
- Has low thermal conductivity and high thermal expansion so must minimize distortion of welded joint
- Welding without filler metal results in poor strength properties
Machinability
- High work hardening rate combined with a lack of sulfur makes it very difficult to machine
- Slow speeds, sharp tools, positive feeds, over-powered machine tools, and ample lubrication offer the best results
Chemical Properties
| % | C | Cr | Mn | Mo | N | Ni | P | Si | S |
|---|---|---|---|---|---|---|---|---|---|
| 254 SMO | 0.02 max | min: 19.5 max:20.0 |
1.00 max | min: 6.0 max: 6.5 |
min: 0.18 max: 0.20 |
min: 17.5 max: 18.0 |
0.03 max | 0.80 max | 1.01 max |
Mechanical Properties
| Grade | Tensile Strength ksi (MPa) min | Yield Strength 0.2% Offset ksi (MPa) min |
Elongation - % in 50 mm (min.) |
Hardness (Brinell) MAX |
Hardness (Rockwell B) MAX |
|---|---|---|---|---|---|
| 254 SMO Sheet & Strip | 100 (690) | 45 (310) | 35 | 223 | 96 |
| 254 SMO Plate | 95 (655) | 45 (310) | 35 | 223 | 96 |
Physical Properties
| Grade: | Alloy 254 |
|---|---|
| Density | 8.0 kg/dm^3 |
| Modulus of Elasticity | 195 GPa |
| Linear Expansion at 68to 212oF (20 to 100oC) | 16.5 X10^-6/oC |
| Thermal Conductivity | 14 w/moC |
| Thermal Capacity | 500 J/kgoC |
| Electrical Resitivity | 0.85 μΩm |
Product Information
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