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EN 2.4878 Nickel vs. ZK60A Magnesium

EN 2.4878 nickel belongs to the nickel alloys classification, while ZK60A magnesium belongs to the magnesium alloys. There are 28 material properties with values for both materials. Properties with values for just one material (2, in this case) are not shown. Please note that the two materials have significantly dissimilar densities. This means that additional care is required when interpreting the data, because some material properties are based on units of mass, while others are based on units of area or volume.

For each property being compared, the top bar is EN 2.4878 nickel and the bottom bar is ZK60A magnesium.

EN 2.4878 (NiCr25Co20TiMo) Nickel Alloy ZK60A (MgZn6Zr, M16600) Magnesium

Metric UnitsUS Customary Units

Mechanical Properties

Elastic (Young's, Tensile) Modulus, GPa		200
Elastic (Young's, Tensile) Modulus, GPa		46

Elongation at Break, %		13 to 17
Elongation at Break, %		4.5 to 9.9

Fatigue Strength, MPa		400 to 410
Fatigue Strength, MPa		150 to 180

Poisson's Ratio		0.29
Poisson's Ratio		0.29

Shear Modulus, GPa		78
Shear Modulus, GPa		18

Shear Strength, MPa		750 to 760
Shear Strength, MPa		170 to 190

Tensile Strength: Ultimate (UTS), MPa		1210 to 1250
Tensile Strength: Ultimate (UTS), MPa		320 to 330

Tensile Strength: Yield (Proof), MPa		740 to 780
Tensile Strength: Yield (Proof), MPa		230 to 250

Thermal Properties

Latent Heat of Fusion, J/g		330
Latent Heat of Fusion, J/g		330

Maximum Temperature: Mechanical, °C		1030
Maximum Temperature: Mechanical, °C		120

Melting Completion (Liquidus), °C		1370
Melting Completion (Liquidus), °C		600

Melting Onset (Solidus), °C		1320
Melting Onset (Solidus), °C		550

Specific Heat Capacity, J/kg-K		460
Specific Heat Capacity, J/kg-K		960

Thermal Conductivity, W/m-K		11
Thermal Conductivity, W/m-K		120

Thermal Expansion, µm/m-K		12
Thermal Expansion, µm/m-K		26

Otherwise Unclassified Properties

Base Metal Price, % relative		80
Base Metal Price, % relative		13

Density, g/cm³		8.3
Density, g/cm³		1.9

Embodied Carbon, kg CO₂/kg material		10
Embodied Carbon, kg CO₂/kg material		23

Embodied Energy, MJ/kg		150
Embodied Energy, MJ/kg		160

Embodied Water, L/kg		370
Embodied Water, L/kg		940

Common Calculations

Resilience: Ultimate (Unit Rupture Work), MJ/m³		150 to 180
Resilience: Ultimate (Unit Rupture Work), MJ/m³		14 to 29

Resilience: Unit (Modulus of Resilience), kJ/m³		1370 to 1540
Resilience: Unit (Modulus of Resilience), kJ/m³		570 to 690

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

Stiffness to Weight: Bending, points		24
Stiffness to Weight: Bending, points		63

Strength to Weight: Axial, points		41 to 42
Strength to Weight: Axial, points		47 to 49

Strength to Weight: Bending, points		31
Strength to Weight: Bending, points		55 to 56

Thermal Diffusivity, mm²/s		2.8
Thermal Diffusivity, mm²/s		66

Thermal Shock Resistance, points		37 to 39
Thermal Shock Resistance, points		19 to 20

Alloy Composition

Aluminum (Al), %		1.2 to 1.6
Aluminum (Al), %		0

Boron (B), %		0.010 to 0.015
Boron (B), %		0

Carbon (C), %		0.030 to 0.070
Carbon (C), %		0

Chromium (Cr), %		23 to 25
Chromium (Cr), %		0

Cobalt (Co), %		19 to 21
Cobalt (Co), %		0

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

Iron (Fe), %		0 to 1.0
Iron (Fe), %		0

Magnesium (Mg), %		0
Magnesium (Mg), %		92.5 to 94.8

Manganese (Mn), %		0 to 0.5
Manganese (Mn), %		0

Molybdenum (Mo), %		1.0 to 2.0
Molybdenum (Mo), %		0

Nickel (Ni), %		43.6 to 52.2
Nickel (Ni), %		0

Niobium (Nb), %		0.7 to 1.2
Niobium (Nb), %		0

Phosphorus (P), %		0 to 0.010
Phosphorus (P), %		0

Silicon (Si), %		0 to 0.5
Silicon (Si), %		0

Sulfur (S), %		0 to 0.0070
Sulfur (S), %		0

Tantalum (Ta), %		0 to 0.050
Tantalum (Ta), %		0

Titanium (Ti), %		2.8 to 3.2
Titanium (Ti), %		0

Zinc (Zn), %		0
Zinc (Zn), %		4.8 to 6.2

Zirconium (Zr), %		0.030 to 0.070
Zirconium (Zr), %		0.45 to 1.0

Residuals, %		0
Residuals, %		0 to 0.3

Comparable Variants

Aged (precipitation Hardened) Condition