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Home/Compare/Stainless Steel/310S High-Temperature Austenitic vs Alloy 330 High-Temperature Austenitic

310S High-Temperature Austenitic vs Alloy 330 High-Temperature Austenitic

Property comparison of 310S High-Temperature Austenitic and Alloy 330 High-Temperature Austenitic, both stainless steel.

Stainless Steel9 compared properties
Property310S High-Temperature AusteniticAlloy 330 High-Temperature AusteniticDifference
Yield strength245 MPa172 MPa-30%
Tensile strength550 MPa483 MPa-12%
Elongation45 %30 %-33%
Elastic modulus196,000 MPa196,000 MPa0%
Density7,890 kg/m³8,080 kg/m³+2%
Thermal conductivity10.8 W/m·K12.5 W/m·K+16%
Specific heat460 J/kg·K460 J/kg·K0%
Coefficient of thermal expansion0.000016 1/K0.000018 1/K+11%
Melting point1,402 °C1,425 °C+2%

Difference is Alloy 330 High-Temperature Austenitic relative to 310S High-Temperature Austenitic. Values are taken from the representative row of each material; both materials may have multiple heat treatments or conditions on their individual pages.

Identification

310S High-Temperature Austenitic
grade
S31008
standard
ASTM A240
heat treatment
Annealed
Alloy 330 High-Temperature Austenitic
grade
N08330
standard
AMS 5592 / ASTM B536
heat treatment
Annealed

About austenitic stainless steels

Austenitic stainless steels are the largest stainless family. They are non-magnetic in the annealed condition and gain corrosion resistance from chromium and nickel (and molybdenum in 316-class grades). They cannot be hardened by heat treatment and rely on cold work for higher strength. Includes the 300-series, super-austenitic grades (904L, AL-6XN), and high-nitrogen variants used in pressure vessels and chemical service.

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310S High-Temperature AusteniticAll properties and heat treatmentsAlloy 330 High-Temperature AusteniticAll properties and heat treatments