Leaded commercial bronze C31400 vs Leaded Muntz metal C36500
Property comparison of Leaded commercial bronze C31400 and Leaded Muntz metal C36500, both aluminum alloy.
| Property | Leaded commercial bronze C31400 | Leaded Muntz metal C36500 | Difference |
|---|---|---|---|
| Yield strength | 83 MPa | 138 MPa | +66% |
| Tensile strength | 255 MPa | 372 MPa | +46% |
| Elongation | 45 % | 45 % | 0% |
| Elastic modulus | 105,000 MPa | 105,000 MPa | 0% |
| Shear modulus | 40,000 MPa | 40,000 MPa | 0% |
| Poisson ratio | 0.32 | 0.32 | 0% |
| Density | 8,800 kg/m³ | 8,800 kg/m³ | 0% |
| Thermal conductivity | 155 W/m·K | 155 W/m·K | 0% |
| Specific heat | 900 J/kg·K | 900 J/kg·K | 0% |
| Coefficient of thermal expansion | 0.000023 1/K | 0.000023 1/K | 0% |
| Melting point | 580 °C | 580 °C | 0% |
Difference is Leaded Muntz metal C36500 relative to Leaded commercial bronze C31400. Values are taken from the representative row of each material; both materials may have multiple heat treatments or conditions on their individual pages.
Identification
- standard
- ANSI
- heat treatment
- —
- standard
- ANSI
- heat treatment
- As hot rolled
What else is in Engineering Database
AI built for engineering. Searches the engineering database, performs calculations, gives source-backed engineering insights.
Get started for free ↗Reference Data375 engineering tablesMaterial properties, pipe and shape dimensions, code tables, and electrical ratings across mechanical, civil, chemical, electrical, materials, and manufacturing engineering.
Browse dataCalculatorsDeterministic engineering calculatorsSizing, checking, and conversion tools that run against the reference tables. Inputs are code-compliant, outputs are traceable to the source standard.
Browse calculators