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310 stainless steel

310 stainless steel

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Stainless steel
Fabrication Additive
Aeronautics
Automobile
Energy
Industry

SS-310 is a stainless steel-type alloy manufactured by atomizing inert gas. It offers excellent stability, good corrosion resistance and a morphology adapted to demanding industrial applications.

Packing:
10 kg
Granulometry:
Select option
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310 stainless steel
Usage

High temperature, Corrosion

Functional property (technical details)

Hot Oxidation Resistance, General Corrosion Resistance

Typical applications

High-temperature components such as furnace parts, heat exchangers and heat treatment equipment, exploiting resistance to hot oxidation for increased durability in repeated thermal cycles.Structural parts for turbines and engines exposed to corrosion and oxidation, benefiting from high mechanical and anti-corrosion resistance in aggressive gaseous environments.Valves, fittings and industrial tools subject to saline or acid corrosion, where the dimensional stability and fluidity of the powder allow for ometries complexes via AM.

Key benefits

Good sphericity, high fluidity, particle size homogeneity, low oxidation

Available documents

Technical sheet, Safety sheet, Particle size distribution, Material certificate

Physical characteristics
Light dispersion
ASTM B822/ISO 13320-1
Available particle sizes (µm)
MIM <22μm/BJ <25μm/LPBF 15 — 53μm
Tapped density (g/cc)
≥ 4.65
Apparent density (g/cc)
≥ 7.70
Hall Flow
Chemical composition
Carbon (C) rate%
0.28 — 0.31
Silicon (Si) rate%
0.80 — 1.10
Manganese (Mn) rate%
≤ 0.00
Phosphorous (P) rate%
≤ 0.030
Sulphur (S) rate%
≤ 0.015
Chromium (Cr) rate%
24.25 — 26.00
Nickel (Ni) rate%
19.25 — 21.00
Molybdenum (Mo) rate%
≤ 0.30
Cobalt (Co) rate%
Niobium (Nb) rate%
1.25 — 1.50
Titanium (Ti) rate%
Aluminum (Al) rate%
Copper (Cu) rate%
Boron (B) rate%
Iron (Ir) rate%
libra
Nitrogen (N) rate% (LPBF only)
Oxygen (O) rate% (LPBF only)
Vanadium (V) rate%
Tungsen (W) rate%
Cadium (Cd) rate%
Tantalum (Ta) rate%
Hafnium (Hf) rate%
Zirconium (Zr) rate%
Other rate%