Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D vs SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
Ratings Comparison
Strength
Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D
5/10
SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
6/10
Corrosion Resistance
Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D
3/10
SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
3/10
Lightweight
Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D
5/10
SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
5/10
Machinability
Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D
6/10
SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
6/10
Cost Efficiency
Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D
9/10
SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
9/10
Temperature Resistance
Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D
7/10
SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition
7/10
Properties Comparison
| Property | Q235 vs A36, SS400, E250, S235JR Steel, Q235A, Q235B, Q235C, Q235D | SAE AISI 4130 Chromoly Steel, Alloy Material Properties, Chemical Composition |
|---|---|---|
| Metal Base | Steel | Steel |
| Tensile Strength | — | 670.0 MPa |
| Yield Strength | — | 435.0 MPa |
| Elongation | — | 25.5 % |
| Hardness (Brinell) | — | 197.0 HB |
| Elastic Modulus | — | — |
| Density | — | — |
| Melting Point | — | — |
| Thermal Conductivity | — | — |
| Weldable | — | — |
| Heat Treatable | — | — |
| Magnetic | — | — |