405 Stainless Steel 1.4002 Stainless Steel Pipe
ASTM A268 ASME SA268 S40500 405 Stainless Steel 1.4002 is a 12% chromium steel, designed to be used in the as welded condition. Unlike other grades in the 12% chromium category, 405 is not susceptible to extensive hardening through air cooling from high temperature. Commonly used for annealing boxes, steam nozzles, quenching racks, partitions and other fabrications that cannot be annealed after welded.
Soft and ductile, 405 can be easily machined using most standard practices. Experienced machinists comment that 405 machines similarly to 4130 alloy steel. 405 can be easily spun, drawn and formed using common forming procedures.
405 Stainless Steel can be welded using shielded fusion and resistance techniques. Oxyacetylene welding is not recommended. Use 405 Cb electrodes that contain columbium rather than aluminum to control hardening. Post weld annealing will maximize ductility. Soak at 1500-1600 F(817-871 C) and then quickly increase to 1900-2050 F(1038-1121 C). Do not remain at this temperature as the result will be excessive grain growth. Do not work below 1500 F(816C). After forging, air cool and anneal.
AISI Type 405 1.4002 Stainles Steel has marginal stainless steel corrosion resistance. It is used primarily as a structural material. It is serviceable in continuous service up to 1300 F and in intermittent exposures up to 1500 F. It does not harden appreciably when air cooled from high temperature where some austenite may exist.
405 is a 12% chromium steel designed to be used in the as-welded condition. Unlike other 12% chromium steels, it is not subject to a great deal of hardening through air cooling form high temperatures.
405 Stainless Steel Specification:
ASTM A240 Standard Specification for Chromium and Chromium-Nickel Stainless Steel Plate, Sheet, and Strip for Pressure Vessels and for General Applications
ASTM A268 Standard Specification for Seamless and Welded Ferritic and Martensitic Stainless Steel Tubing for General Service
EN 10088-2 Stainless steels – Part 2: Technical delivery conditions for sheet/plate and strip of corrosion resisting steels for general purposes
JIS G3463 Stainless Steel for Boiler and Heat Exchanger Tubes
ASME SA268 405 Stainless Steel Chemical Composition:
| Al | C | Mn | P | S | Cr | Si | Ni | N | Cu |
| 0.10-0.30 | max. 0.08 | max. 1.00 | max. 0.040 | max. 0,030 | 11.5 – 14.5 | max 1.00 | max, 0.5 | – | – |
ASME SA240 405 Stainless Steel Chemical Composition:
| Al | C | Mn | P | S | Cr | Si | Ni | N | Cu |
| 0.10-0.30 | max. 0.08 | max. 1.00 | max. 0.040 | max. 0.030 | 11.5 – 14.5 | max 1.00 | max 0.60 | – | – |
EN 10088-2 1.4002 Stainless Steel Chemical Composition:
| Al | C | Mn | P | S | Cr | Si | Ni | N | Cu |
| 0.10-0.30 | max. 0.08 | max. 1.00 | max. 0.040 | max. 0.015 | 12.0 – 14.0 | max 1.00 | max 0.60 | – | – |
ASTM A268 ASME SA268 405 Stainless Steel Mechanical Properties
| Material Grade | Matrial Number | Tensile Strength Rm N/mm² ksi(MPa) min | Yield Strength Rp0.2% N/mm²(MPa) min | Elongation (%) | Brinell Hardness Test max | Rockwell Hardness Test max |
| TP405 | S40500 | 60 (415) | 30 (205) | 20 | 207 | 95 |
EN 10088-2 1.4002 Stainless Steel Mechanical Properties
| Material Grade | Matrial Number | Tensile Strength Rm N/mm² ksi(MPa) min | Yield Strength Rp0.2% N/mm²(MPa) min | Elongation (%) |
| TP 405 | 1.4002 | 400-600 | 230 | 17 |
405 Stainless Steel Application
Commonly used for annealing boxes, steam nozzles, quenching racks, partitions and other fabrications that cannot be annealed after welding.
405 Stainless Steel Machinability
Soft and ductile, 405 can be easily machined using most standard practices. Experienced machinists comment that 405 machines similarly to 4130 alloy steel.
405 Stainless Steel Forming
405 can be easily spun, drawn and formed using common forming procedures.
405 Stainless Steel Welding
405 can be welded using shielded fusion and resistance techniques. Oxyacetylene welding is not recommended. Use 405 Cb electrodes that contain columbium rather than aluminum to control hardening. Post weld annealing will maximize ductility.
405 Stainless Steel Forging
Soak at 1500-1600°F(817-871°C) and then quickly increase to 1900-2050°F(1038-1121°C). Do not remain at this temperature as the result will be excessive grain growth. Do not work below 1500°F(816 °C). After forging, air cool and anneal.
405 Stainless Steel Annealing
Soak at 1200-1400°F(649-760°C), air cool.
405 Stainless Steel Hardening
While this alloy does not respond appreciably to heat treatment, soaking at 1800-1850°F(982-1010°C) followed by oil quenching will increase mechanical properties.
405 Stainless Steel Physical Properties:
| Density (lb / cu. in.) | 0.279 |
| Specific Gravity g/cm³ | 7.75 |
| Specific Heat (Btu/lb/°F – [32-212°F] | 0.11 |
| Thermal Conductivity | 416 |
| Modulus of Elasticity Tension | 29 |
Related References:
1. Superferritic Stainless Steel
2. Ferritic Ferrite Stainless Steel
3. Ferritic Stainless Steel Grades Comparison Table
4. Compared with the ferritic stainless steel, duplex stainless steel vulnerable
5. 405 S11348 X6CrAl13 Chemical Composition