Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D vs SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition

Ratings Comparison

Strength

Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D 5/10
SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition 8/10

Corrosion Resistance

Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D 3/10
SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition 3/10

Lightweight

Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D 5/10
SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition 5/10

Machinability

Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D 6/10
SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition 5/10

Cost Efficiency

Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D 9/10
SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition 9/10

Temperature Resistance

Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D 7/10
SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition 7/10

Properties Comparison

Property Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D SAE AISI 5160 Steel, High Carbon 5160 Spring Steel Properties, Composition
Metal Base Steel Steel
Tensile Strength 1025.0 MPa
Yield Strength 650.0 MPa
Elongation 18.2 %
Hardness (Brinell) 285.0 HB
Elastic Modulus
Density
Melting Point
Thermal Conductivity
Weldable
Heat Treatable
Magnetic

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