Molybdenum Alloys Melting Points
Reference data and engineering information about molybdenum alloys melting points for material properties applications.
Overview
Engineering reference data for Molybdenum Alloys Melting Points in material science and properties.
Key Formulas
Stress
Force per unit area.
Strain
Change in length per original length.
Hooke's Law
Stress proportional to strain in elastic region.
Thermal Expansion
Length change due to temperature.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Stress | Pa | |
| Strain | — | |
| Young's modulus | Pa | |
| Thermal expansion coefficient | 1/°C | |
| Temperature change | °C |
Binary Eutectic Molybdenum Alloys
A eutectic mixture is a specific composition of two or more metals where the melting point reaches its minimum possible value. For binary alloys, the melting point depends on the relative proportions of the constituent elements.
The following table presents binary eutectic molybdenum (Mo) alloys with their compositions and melting points:
Alloy Component | Weight of Component(%) | Melting Point(K) | Melting Point(°F) |
|---|---|---|---|
| Nb - Niobium (Columbium) | 65 | 2570 | 4167 |
| Ni - Nickel | 52 | 1590 | 2403 |
| Os - Osmium | 34 | 2650 | 4311 |
| Pd - Palladium | 57 | 2020 | 3177 |
| Re - Rhenium | 64 | 2780 | 4545 |
| Ru - Ruthenium | 42 | 2200 | 3501 |
| Si - Silicon | 5.7 | 2350 | 3771 |
Source: engineeringtoolbox.com
Temperature Conversion
To convert between Fahrenheit and Celsius for the melting point values above: