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C99700 Brass vs. AISI 410 Stainless Steel

C99700 brass belongs to the copper alloys classification, while AISI 410 stainless steel belongs to the iron alloys. There are 26 material properties with values for both materials. Properties with values for just one material (9, in this case) are not shown.

For each property being compared, the top bar is C99700 brass and the bottom bar is AISI 410 stainless steel.

UNS C99700 Manganese White Brass AISI 410 (S41000) Stainless Steel

Metric UnitsUS Customary Units

Mechanical Properties

Elastic (Young's, Tensile) Modulus, GPa		120
Elastic (Young's, Tensile) Modulus, GPa		190

Elongation at Break, %		25
Elongation at Break, %		16 to 22

Poisson's Ratio		0.32
Poisson's Ratio		0.28

Shear Modulus, GPa		46
Shear Modulus, GPa		76

Tensile Strength: Ultimate (UTS), MPa		380
Tensile Strength: Ultimate (UTS), MPa		520 to 770

Tensile Strength: Yield (Proof), MPa		170
Tensile Strength: Yield (Proof), MPa		290 to 580

Thermal Properties

Latent Heat of Fusion, J/g		200
Latent Heat of Fusion, J/g		270

Maximum Temperature: Mechanical, °C		160
Maximum Temperature: Mechanical, °C		710

Melting Completion (Liquidus), °C		900
Melting Completion (Liquidus), °C		1530

Melting Onset (Solidus), °C		880
Melting Onset (Solidus), °C		1480

Specific Heat Capacity, J/kg-K		410
Specific Heat Capacity, J/kg-K		480

Thermal Expansion, µm/m-K		20
Thermal Expansion, µm/m-K		11

Electrical Properties

Electrical Conductivity: Equal Volume, % IACS		3.0
Electrical Conductivity: Equal Volume, % IACS		2.9

Electrical Conductivity: Equal Weight (Specific), % IACS		3.3
Electrical Conductivity: Equal Weight (Specific), % IACS		3.3

Otherwise Unclassified Properties

Base Metal Price, % relative		25
Base Metal Price, % relative		7.0

Density, g/cm³		8.1
Density, g/cm³		7.7

Embodied Carbon, kg CO₂/kg material		3.3
Embodied Carbon, kg CO₂/kg material		1.9

Embodied Energy, MJ/kg		53
Embodied Energy, MJ/kg		27

Embodied Water, L/kg		320
Embodied Water, L/kg		100

Common Calculations

Resilience: Ultimate (Unit Rupture Work), MJ/m³		78
Resilience: Ultimate (Unit Rupture Work), MJ/m³		97 to 110

Resilience: Unit (Modulus of Resilience), kJ/m³		120
Resilience: Unit (Modulus of Resilience), kJ/m³		210 to 860

Stiffness to Weight: Axial, points		8.3
Stiffness to Weight: Axial, points		14

Stiffness to Weight: Bending, points		20
Stiffness to Weight: Bending, points		25

Strength to Weight: Axial, points		13
Strength to Weight: Axial, points		19 to 28

Strength to Weight: Bending, points		14
Strength to Weight: Bending, points		19 to 24

Thermal Shock Resistance, points		11
Thermal Shock Resistance, points		18 to 26

Alloy Composition

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Aluminum (Al), %		0.5 to 3.0
Aluminum (Al), %		0

Carbon (C), %		0
Carbon (C), %		0.080 to 0.15

Chromium (Cr), %		0
Chromium (Cr), %		11.5 to 13.5

Copper (Cu), %		54 to 65.5
Copper (Cu), %		0

Iron (Fe), %		0 to 1.0
Iron (Fe), %		83.5 to 88.4

Lead (Pb), %		0 to 2.0
Lead (Pb), %		0

Manganese (Mn), %		11 to 15
Manganese (Mn), %		0 to 1.0

Nickel (Ni), %		4.0 to 6.0
Nickel (Ni), %		0 to 0.75

Phosphorus (P), %		0
Phosphorus (P), %		0 to 0.040

Silicon (Si), %		0
Silicon (Si), %		0 to 1.0

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

Tin (Sn), %		0 to 1.0
Tin (Sn), %		0

Zinc (Zn), %		19 to 25
Zinc (Zn), %		0

Residuals, %		0 to 0.3
Residuals, %		0