Tuesday, January 4, 2022

Stainless Steel 410 (UNS S41000)

wilsonpipeline Stainless inventory includes Alloy 410 (UNS S41000) in  Stainless Steel Pipes.  Other product forms such as Stainless Steel FlangesStainless Steel Pipe Fittings.

Overview


General Properties

Alloy 410 is the basic, general purpose martensitic stainless steel that is used for highly stressed parts and provides good corrosion resistance plus high strength and hardness. Alloy 410 contains a minimum of 11.5% chromium which is just sufficient enough to demonstrate corrosion resistance properties in mild atmospheres, steam, and many mild chemical environments. It is a general purpose grade that is often supplied in the hardened but still machineable condition for applications where high strength and moderate heat and corrosion resistance are required. Alloy 410 displays maximum corrosion resistance when it’s been hardened, tempered, and then polished.

Specifications: UNS S30400 / S30403

Applications:

Applications requiring moderate corrosion resistance and high mechanical properties are ideal for Alloy 410. Examples of applications that frequently used Alloy 410 include:

  • Cutlery
  • Steam and gas turbine blades
  • Kitchen utensils
  • Bolts, nuts, screws
  • Pump and valve parts and shafts
  • Mine ladder rugs
  • Dental and surgical instruments
  • Nozzles
  • Hardened steel balls and seats for oil well pumps

 

Standards:

  • ASTM/ASME: UNS S41000
  • EURONORM: FeMi35Cr20Cu4Mo2
  • DIN: 2.4660

Resistance

Corrosion Resistance:

  • Good corrosion resistance to atmospheric corrosion, potable water, and to mildly corrosive environments
  • Its exposure to everyday activities (sports, food preparation) is generally satisfactory when proper cleaning is performed after exposure to use
  • Good corrosion resistance to low concentrations of mild organic and mineral acids

Processing

Weldability

  • Readily welded by all standard methods
  • To reduce the risk of cracking, it is suggested to pre-heat the work piece to 350 to 400oF (177 to 204oC)
  • Post weld annealing is recommended to retain maximum ductility

Heat Treatment

  • The proper hot work range is 2000 to 2200oF (1093 to 1204oC)
  • Do not work this material below 1650oF (899oC)

Properties

Chemical Properties:

CMnSiPSCrNi
4100.15 max1.00 max1.00 max0.04 max0.03 maxmin: 11.5
max: 13.5
0.50 max

Mechanical Properties:

GradeTensile Strength ksi (MPa) minYield Strength 0.2% offset ksi (MPa) minElongation (% in 50mm) minHardness (Brinell) MAXHardness (Rockwell B) MAX
41065 (450)30 (205)2021796

Mechanical Properties of Heat Treated 410:

Heat TreatmentT410 (0.14%C) Hardened 1800°F (982°C)
Rockwell Hardness0.2% YS, Ksi (MPa)UTS, Ksi (MPa)
Annealed*81 HRB45.4  (313)80.4  (554)
 Hardened & Tempered 400°F (204°C)43 HRC156.1  (1076) 202.9  (1399)
 Hardened & Tempered 550°F (288°C) 40 HRC148.3  (1022) 187.0  (1289)
Hardened & Tempered 600°F (316°C)40 HRC148.8  (1026)186.1  (1283)
Hardened & Tempered 800°F (427°C)41 HRC132.9 (916)188.5  (1300)
Hardened & Tempered 900°F (482°C)41 HRC122.6 (845)154.3  (1063)
Hardened & Tempered 1000°F (538°C)35 HRC127.9  (882)154.3  (1063)
Hardened & Tempered 1200°F (649°C)98 HRB85.5  (589)111.2  (767)

 Physical Properties:

Density
lbm/in3
Thermal Conductivity
(BTU/h ft. °F)
Electrical
Resistivity
(in x 10-6)
Modulus of
Elasticity
(psi x 106
Coefficient of
Thermal Expansion
(in/in)/
°F x 10-6
Specific Heat
(BTU/lb/
°F)
Melting
Range
(°F)
at 68°F: 0.27614.4 at 212°F56 at 68°F295.90 at 68 – 392°F0.11 at 68°F to 212°F2700 to 2790
6.5 at 68 – 1112°F

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