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Inox 410 / 410S

Stainless Steel 410 / 410S

W-Nr. 1.4006/1.4000; UNS S41000/S41008

Compoziție chimică Inox 410

Alloy C Mn P S Si Cr Ni Mo Cu N Other
410 0.15 1.00 0.040 0.030 1.00 11.50–13.50 0.75 0.50 0.50 0.08 Al=0.05, Sn=0.05

General Characteristics

Stainless Steel Stainless steel 410/410S is a martensitic, chromium-hardened alloy that offers an excellent combination of hardness, wear resistance, and corrosion resistance. When properly heat-treated, this alloy can achieve high hardness while still maintaining good corrosion resistance.
Additionally, the 410S version (with reduced carbon content) is easier to machine and weld, making it suitable for applications that do not require intense heat treatments.

Corrosion resistance

410/410S stainless steel provides good resistance to atmospheric corrosion, potable water, and mildly aggressive chemical environments. This performance is due to the natural formation of a protective chromium oxide film on the surface. However, when in contact with chlorides or highly acidic media, thorough surface cleaning after use is essential.
To ensure optimal corrosion protection in industrial applications:

Surfaces should be ground or polished to remove any oxide or decarburization;

A treatment with 10–20% nitric acid, followed by a complete rinse with water, is recommended.

Physical Properties:

  • Melting point: 1495°C
  • Density: 7.65 g/cm³
  • Specific gravity: 7.65
  • Elastic modulus: 200 GPa

Mechanical Properties:

Alloy Temper Tensile Strength (psi) Yield Strength (psi) Elongation (%)
410/410S Annealed 65,000 30,000 20%

Welding

Weldability of 410/410S is not extensively specified in datasheets, but it is well known that this steel requires special attention to preheating and post-weld heat treatment to avoid cracking. Welding is possible using standard methods (such as TIG or MIG), but procedures must be tailored to specific applications.

Heat Treatment

For annealing: Heat to 815–842°C, hold for one hour per inch of thickness, then cool slowly in the furnace.
For hardening and achieving maximum hardness:
Slow heating to 982°C, followed by rapid cooling in oil or air (for thin sections);
If retained austenite is suspected, sub-zero cooling at -73°C can be performed;
The resulting martensitic structure is brittle, therefore stress relieving at 204–260°C is recommended to restore reasonable ductility.

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All Products

Nickel & Nickel Alloys
Alloy 725 / Inconel 725®
W-Nr. 2.4857; UNS N07725
Alloy 925 / Incoloy 925®
W-Nr. 2.4852; UNS N09925
Nichel 200/201
W-Nr. 2.4060 / 61 / 66 / 68, UNS N02200 / N02201
Alloy 400 / Monel 400 ®
W-Nr. 2.4360/2.4361; UNS N04400
Alloy K-500 / Monel K-500 ®
W-Nr. 2.4375, UNS N05500
Alloy 625 / Inconel 625 ®
W-Nr. 2.4856; UNS N06625
Alloy 686 / Inconel 686 ®
W-Nr. 2.4606; UNS N06686
Alloy C-276 / Inconel C-276 ®
W-Nr. 2.4819; UNS N10276
Alloy 22 / Inconel 22 ®
W-Nr. 2.4602; UNS N06022
Alloy 75 / Nimonic 75 ®
W-Nr. 2.4630/2.4951; UNS N06075
Alloy 80A / Nimonic 80A ®
W-Nr. 2.4631/2.4952; UNS N07080
Alloy 90 / Nimonic 90 ®
W-Nr. 2.4632/2.4969; UNS N07090
Alloy X-750 / Inconel X-750 ®
W-Nr. 2.4669; UNS N07750
Alloy 600 / Inconel 600 ®
W-Nr. 2.4816; UNS N06600
Alloy 601 / Inconel 601 ®
W-Nr. 2.4851; UNS N06601
Alloy 718 / Inconel 718 ®
W-Nr. 2.4668; UNS N07718
Alloy HX / Inconel HX ®
W-Nr. 2.4665; UNS N06002
Alloy 800 / Incoloy 800 ®
W-Nr. 1.4876; UNS N08800
Alloy 800H/HT / Incoloy 800H/HT ®
W-Nr. 1.4958, 1.4959; UNS N08810, N08811
Alloy 300/DS / Incoloy 300/DS ®
W-Nr. 1.4862, UNS N08330
Titanium Grade 1
W-Nr. 3.7025; UNS R50400
Titanium Grade 2
W-Nr. 3.7035; UNS R50400
Titanium Grade 5 (6Al4V)
W-Nr. 3.7164; UNS R56400
Titanium Grade 5 ELI (Grade 23)
W-Nr. 3.7165 UNS R56401
Titanium Grade 4
W-Nr. 3.7065; UNS R50700
Titanium Grade 7
W-Nr. 3.7235; UNS R52400
Titanium Grade 9 (3AL2.5V)
W-Nr. 3.7195; UNS R56320
Alloy 15-5 PH
W-Nr. 1.4545; UNS S15500
Alloy 253MA
W-Nr. 1.4835; UNS S30815
Alloy 254 SMO
W-Nr. 1.4547; UNS S31254
Stainless Steel 310 / 310S / 310H
W-Nr. 1.4845; UNS S31000 / S31008 / S31009
Stainless Steel 316
W-Nr. 1.4401; UNS S31600
Stainless Steel 316 Ti
W-Nr. 1.4571; UNS S31635
Stainless Steel 347
W-Nr. 1.4550; UNS S34700
Stainless Steel 410 / 410S
W-Nr. 1.4006/1.4000; UNS S41000/S41008
Stainless Steel 420
W-Nr. 1.4034; UNS S42000
Stainless Steel 904L
W-Nr. 1.4539, UNS N08904
Stainless Steel A286
W-Nr. 1.4980; UNS S66286
Duplex F61
W-Nr.1.4507 / UNS S32550
It is an alloy characterized by a ferritic-austenitic microstructure, containing approximately 40–50% ferrite in the annealed condition. As such, it effectively combines the high mechanical strength of ferritic steels with the corrosion resistance typical of austenitic grades.
W-Nr. 1.4462 / UNS S31803
Super Duplex F53
W-Nr. 1.4410 / UNS S32750
Super Duplex F55
W-Nr. 1.4501 / UNS 32760
Welding Electrodes
Welding Wire
17-4PH
W-Nr. 1.4548, UNS 17400
Inox 304
UNS S30400; W-Nr. 1.4301
Inox 321
UNS S32100; W-Nr. 1.4541

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