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SAE-AISI 1035 (G10350) Carbon Steel

SAE-AISI 1035 steel is a carbon (non-alloy) steel formulated for primary forming into wrought products. 1035 is the designation in both the SAE and AISI systems for this material. G10350 is the UNS number.

The properties of SAE-AISI 1035 steel include two common variations. This page shows summary ranges across both of them. For more specific values, follow the links immediately below. The graph bars on the material properties cards further below compare SAE-AISI 1035 steel to: wrought carbon or non-alloy steels (top), all iron alloys (middle), and the entire database (bottom). A full bar means this is the highest value in the relevant set. A half-full bar means it's 50% of the highest, and so on.

Cold Drawn 1035 Carbon SteelHot Rolled 1035 Carbon Steel

Mechanical Properties

Brinell Hardness

160 to 180

Elastic (Young's, Tensile) Modulus

190 GPa 27 x 106 psi

Elongation at Break

13 to 21 %

Fatigue Strength

210 to 340 MPa 31 to 49 x 103 psi

Poisson's Ratio

0.29

Reduction in Area

40 to 45 %

Shear Modulus

73 GPa 11 x 106 psi

Shear Strength

360 to 370 MPa 52 to 54 x 103 psi

Tensile Strength: Ultimate (UTS)

570 to 620 MPa 83 to 89 x 103 psi

Tensile Strength: Yield (Proof)

300 to 530 MPa 44 to 76 x 103 psi

Thermal Properties

Latent Heat of Fusion

250 J/g

Maximum Temperature: Mechanical

400 °C 750 °F

Melting Completion (Liquidus)

1460 °C 2660 °F

Melting Onset (Solidus)

1420 °C 2590 °F

Specific Heat Capacity

470 J/kg-K 0.11 BTU/lb-°F

Thermal Conductivity

51 W/m-K 29 BTU/h-ft-°F

Thermal Expansion

12 µm/m-K

Electrical Properties

Electrical Conductivity: Equal Volume

7.0 % IACS

Electrical Conductivity: Equal Weight (Specific)

8.0 % IACS

Otherwise Unclassified Properties

Base Metal Price

1.8 % relative

Density

7.8 g/cm3 490 lb/ft3

Embodied Carbon

1.4 kg CO2/kg material

Embodied Energy

18 MJ/kg 7.9 x 103 BTU/lb

Embodied Water

46 L/kg 5.5 gal/lb

Common Calculations

Resilience: Ultimate (Unit Rupture Work)

79 to 99 MJ/m3

Resilience: Unit (Modulus of Resilience)

250 to 740 kJ/m3

Stiffness to Weight: Axial

13 points

Stiffness to Weight: Bending

24 points

Strength to Weight: Axial

20 to 22 points

Strength to Weight: Bending

19 to 21 points

Thermal Diffusivity

14 mm2/s

Thermal Shock Resistance

18 to 20 points

Alloy Composition

Iron (Fe)Fe 98.6 to 99.08
Manganese (Mn)Mn 0.6 to 0.9
Carbon (C)C 0.32 to 0.38
Sulfur (S)S 0 to 0.050
Phosphorus (P)P 0 to 0.040

All values are % weight. Ranges represent what is permitted under applicable standards.

Followup Questions

How are the material properties defined?How does SAE-AISI 1035 steel compare to other iron alloys?
How does it compare to other metal alloys?

Similar Alloys

EN 1.1219 (C56E2) Induction-Hardening Bearing SteelSAE-AISI 1038 (G10380) Carbon Steel
SAE-AISI 1030 (G10300) Carbon SteelSAE-AISI 1040 (S40C, G10400) Carbon Steel
Grade VDC Spring SteelSAE-AISI 1042 (G10420) Carbon Steel

Further Reading

Cold-Formed Steel Structures to the AISI Specification, Gregory J. Hancock et al., 2001

ASTM A29: Standard Specification for Steel Bars, Carbon and Alloy, Hot-Wrought, General Requirements for

Carbon Steel Handbook, D. Gandy, 2007

ASM Specialty Handbook: Carbon and Alloy Steels, J. R. Davis (editor), 1996

Ferrous Materials: Steel and Cast Iron, Hans Berns and Werner Theisen, 2008

CRC Materials Science and Engineering Handbook, 4th ed., James F. Shackelford et al. (editors), 2015

Steels: Processing, Structure, and Performance, 2nd ed., George Krauss, 2015