Skip to main content
Speclore

Stainless Steel 310 Properties

Reference data and engineering information about stainless steel 310 properties for material properties applications.

stainlesssteel310propertiesData Table

Overview

Engineering reference data for Stainless Steel 310 Properties in material science and properties.

Key Formulas

Stress

σ=FA\sigma = \frac{F}{A}

Force per unit area.

Strain

ε=ΔLL0\varepsilon = \frac{\Delta L}{L_0}

Change in length per original length.

Hooke's Law

σ=Eε\sigma = E \varepsilon

Stress proportional to strain in elastic region.

Thermal Expansion

ΔL=αL0ΔT\Delta L = \alpha L_0 \Delta T

Length change due to temperature.

Variables

SymbolDescriptionUnit
σ\sigmaStressPa
ε\varepsilonStrain
EEYoung's modulusPa
α\alphaThermal expansion coefficient1/°C
ΔT\Delta TTemperature change°C

Thermal Conductivity Data

The thermal conductivity of AISI 310 stainless steel increases with temperature, ranging from 9.4 W/mK at -125°C to 27.7 W/mK at 1000°C. This data is critical for thermal design and analysis in high-temperature engineering applications.

27 rows
Thermal conductivity of AISI 310 stainless steel at various temperatures
Temperature(°C)
Thermal Conductivity(W/mK)
-1259.4
-10010.1
-7510.8
-5011.2
-2511.7
012.1
2512.7
5013.2
10014.1
15015
20015.8
25016.6
30017.3
35018
40018.8
45019.4
50020.1
55020.9
60022.2
65023
70023.7
75024
80024.5
85025.2
90026
95026.9
100027.7

Source: engineeringtoolbox.com

Interactive Charts

Stainless steel 310 thermal diffusivity vs temperature

References