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AISI 317LN Stainless Steel vs. N10675 Nickel

AISI 317LN stainless steel belongs to the iron alloys classification, while N10675 nickel belongs to the nickel alloys. They have a modest 22% of their average alloy composition in common, which, by itself, doesn't mean much. There are 31 material properties with values for both materials. Properties with values for just one material (3, in this case) are not shown.

For each property being compared, the top bar is AISI 317LN stainless steel and the bottom bar is N10675 nickel.

AISI 317LN (S31753) Stainless Steel UNS N10675 (2.4600, NiMo29Cr) Nickel Alloy

Metric UnitsUS Customary Units

Mechanical Properties

Elastic (Young's, Tensile) Modulus, GPa		200
Elastic (Young's, Tensile) Modulus, GPa		220

Elongation at Break, %		45
Elongation at Break, %		47

Fatigue Strength, MPa		250
Fatigue Strength, MPa		350

Poisson's Ratio		0.28
Poisson's Ratio		0.31

Rockwell B Hardness		84
Rockwell B Hardness		88

Shear Modulus, GPa		79
Shear Modulus, GPa		85

Shear Strength, MPa		430
Shear Strength, MPa		610

Tensile Strength: Ultimate (UTS), MPa		620
Tensile Strength: Ultimate (UTS), MPa		860

Tensile Strength: Yield (Proof), MPa		270
Tensile Strength: Yield (Proof), MPa		400

Thermal Properties

Latent Heat of Fusion, J/g		290
Latent Heat of Fusion, J/g		320

Maximum Temperature: Mechanical, °C		1010
Maximum Temperature: Mechanical, °C		910

Melting Completion (Liquidus), °C		1450
Melting Completion (Liquidus), °C		1420

Melting Onset (Solidus), °C		1400
Melting Onset (Solidus), °C		1370

Specific Heat Capacity, J/kg-K		470
Specific Heat Capacity, J/kg-K		380

Thermal Conductivity, W/m-K		14
Thermal Conductivity, W/m-K		11

Thermal Expansion, µm/m-K		16
Thermal Expansion, µm/m-K		11

Electrical Properties

Electrical Conductivity: Equal Volume, % IACS		2.2
Electrical Conductivity: Equal Volume, % IACS		1.3

Electrical Conductivity: Equal Weight (Specific), % IACS		2.4
Electrical Conductivity: Equal Weight (Specific), % IACS		1.2

Otherwise Unclassified Properties

Base Metal Price, % relative		21
Base Metal Price, % relative		80

Density, g/cm³		7.9
Density, g/cm³		9.3

Embodied Carbon, kg CO₂/kg material		4.3
Embodied Carbon, kg CO₂/kg material		16

Embodied Energy, MJ/kg		59
Embodied Energy, MJ/kg		210

Embodied Water, L/kg		160
Embodied Water, L/kg		280

Common Calculations

Resilience: Ultimate (Unit Rupture Work), MJ/m³		220
Resilience: Ultimate (Unit Rupture Work), MJ/m³		330

Resilience: Unit (Modulus of Resilience), kJ/m³		190
Resilience: Unit (Modulus of Resilience), kJ/m³		350

Stiffness to Weight: Axial, points		14
Stiffness to Weight: Axial, points		13

Stiffness to Weight: Bending, points		25
Stiffness to Weight: Bending, points		22

Strength to Weight: Axial, points		22
Strength to Weight: Axial, points		26

Strength to Weight: Bending, points		20
Strength to Weight: Bending, points		22

Thermal Diffusivity, mm²/s		3.9
Thermal Diffusivity, mm²/s		3.1

Thermal Shock Resistance, points		14
Thermal Shock Resistance, points		26

Alloy Composition

Aluminum (Al), %		0
Aluminum (Al), %		0 to 0.5

Carbon (C), %		0 to 0.030
Carbon (C), %		0 to 0.010

Chromium (Cr), %		18 to 20
Chromium (Cr), %		1.0 to 3.0

Cobalt (Co), %		0
Cobalt (Co), %		0 to 3.0

Copper (Cu), %		0
Copper (Cu), %		0 to 0.2

Iron (Fe), %		57.9 to 67.9
Iron (Fe), %		1.0 to 3.0

Manganese (Mn), %		0 to 2.0
Manganese (Mn), %		0 to 3.0

Molybdenum (Mo), %		3.0 to 4.0
Molybdenum (Mo), %		27 to 32

Nickel (Ni), %		11 to 15
Nickel (Ni), %		51.3 to 71

Niobium (Nb), %		0
Niobium (Nb), %		0 to 0.2

Nitrogen (N), %		0.1 to 0.22
Nitrogen (N), %		0

Phosphorus (P), %		0 to 0.045
Phosphorus (P), %		0 to 0.030

Silicon (Si), %		0 to 0.75
Silicon (Si), %		0 to 0.1

Sulfur (S), %		0 to 0.030
Sulfur (S), %		0 to 0.010

Tantalum (Ta), %		0
Tantalum (Ta), %		0 to 0.2

Titanium (Ti), %		0
Titanium (Ti), %		0 to 0.2

Tungsten (W), %		0
Tungsten (W), %		0 to 3.0

Vanadium (V), %		0
Vanadium (V), %		0 to 0.2

Zinc (Zn), %		0
Zinc (Zn), %		0 to 0.1