Molybdenum alloy mechanical properties as follows:
Experiments show that tungsten and molybdenum rhenium greatly improved tensile strength (eg Mo-48Re, Mo-50W) as compared with tantalum and niobium alloys, TZM alloy has a significant advantage in high temperature applications than the intensity of the long-term stability of molybdenum is very important new development Mo-La alloy especially at high temperatures with amazing resistance to creep and high-temperature deformation.
Industrial Alloys
ASTM is defined as the six basic molybdenum alloys, namely 360,361,363,364,365 and 366 type, these grades are fused reference alloy composition and method of making. Alloys such as 360,363,365, and 366 are formed by a vacuum arc melting alloys 361 and 364 is made by the powder metallurgy techniques, in addition to these alloys, there are different industrial applications, the content of tungsten, rhenium, and the dispersed phase of the active metal molybdenum alloys, alloy nominal composition of several industrial and typical applications below.
Table industrial molybdenum alloy and its application
| Alloy | Nominal composition | Application |
| Mo | 99.95Mo | Vacuum furnaces, glass melting, electronic components, cooling device |
| TZM | 0.5Ti,0.08Zr,0.03C | Thermal processing molds, melting furnace accessories |
| HMC | 1~1.5Hf,0.03~0.05C | Hot work die |
| Mo-W | 10~30W | Storage molten zinc, a sputtering target |
| Mo-Re | 41-47.5Re | Traveling wave tubes, rocket boosters |
| Mo-La | 0.5~1.5La(La2O3形成) | Sintering boat |
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