| Quantity: | |
|---|---|
CHEMICAL COMPOSITION
C: 0.56-0.61%
Si: 0.15-0.35%
Mn: 0.75-1.00%
P: ≤0.035%
S: ≤0.040%
Cr: 0.70-0.90%
MECHANICAL PROPERTIES
Tensile Strength: 724 MPa - 2220 MPa
Yield Strength: 275 MPa - 1790 MPa
Elongation at Break: approximately 17% in the annealed state and reduces to 4% in the quenched and tempered state
Young's Modulus: 190 GPa
Hardness: 200-625
PHYSICAL PROPERTIES
Density: 7850 kg/m3
Thermal conductivity: 46.6 W/m·K
Specific heat capacity: 470 J/kg·K
Linear expansion coefficient: 1.3×10^-5 1/°C
Conductivity: 4.18×10^6 S/m
Resistance: 2.4×10^-7 Ω·m
HEAT TREATMENT
5160 alloy steel is generally hardened using oil. This steel is quenched at 829°C (1525°F) and tempered at temperatures ranging from 427 and 704°C (800 and 1300°F).
FORGING
Forging of 5160 alloy steel is performed at temperatures between 1149 and 1204°C (2100 and 2200°F).
CHEMICAL COMPOSITION
C: 0.56-0.61%
Si: 0.15-0.35%
Mn: 0.75-1.00%
P: ≤0.035%
S: ≤0.040%
Cr: 0.70-0.90%
MECHANICAL PROPERTIES
Tensile Strength: 724 MPa - 2220 MPa
Yield Strength: 275 MPa - 1790 MPa
Elongation at Break: approximately 17% in the annealed state and reduces to 4% in the quenched and tempered state
Young's Modulus: 190 GPa
Hardness: 200-625
PHYSICAL PROPERTIES
Density: 7850 kg/m3
Thermal conductivity: 46.6 W/m·K
Specific heat capacity: 470 J/kg·K
Linear expansion coefficient: 1.3×10^-5 1/°C
Conductivity: 4.18×10^6 S/m
Resistance: 2.4×10^-7 Ω·m
HEAT TREATMENT
5160 alloy steel is generally hardened using oil. This steel is quenched at 829°C (1525°F) and tempered at temperatures ranging from 427 and 704°C (800 and 1300°F).
FORGING
Forging of 5160 alloy steel is performed at temperatures between 1149 and 1204°C (2100 and 2200°F).
