Molybdenum shaped machined parts Industrial availability
The production of molybdenum formed machined parts typically involves several key steps: Material selection: Molybdenum is used as raw material in the form of molybdenum ore, which is then processed to extract molybdenum oxide. The oxide is further processed to produce molybdenum metal powder, which is used as a raw material for molding and processing processes. Shaping: Molybdenum metal powder is usually shaped using powder metallurgy processes such as pressing and sintering. In this process, molybdenum powder is compacted under high pressure to form a green body, which is then sintered at high temperatures to achieve the required density and strength. Machining: Once the molybdenum material is formed into the desired shape, it undergoes precision machining processes such as turning, milling, drilling and grinding to achieve the final dimensions and surface finish required for the specific part. Quality Control: Throughout the entire production process, quality control measures are implemented to ensure that molybdenum parts meet specifications for dimensional accuracy, mechanical properties and surface quality. This may involve non-destructive testing, dimensional inspection and material analysis. Finishing: After machining, molybdenum parts may receive additional surface treatments or coatings to enhance their performance or corrosion resistance, depending on the intended application. Overall, the production of molybdenum formed machined parts requires precision manufacturing techniques and strict adherence to material specifications to ensure that the final product meets the demanding requirements of industrial applications.
Because molybdenum has unique properties such as high melting point, excellent high-temperature strength, and good electrical and thermal conductivity, molybdenum special-shaped machined parts are widely used in various industries. Some common uses for molybdenum formed machined parts include: Aerospace and Defense: Molybdenum parts are used in aerospace and defense applications because of their ability to withstand high temperatures and mechanical stress. They can be found in aircraft components, missile systems and other defense-related equipment. Electronics and Semiconductor Manufacturing: Molybdenum is used in the production of semiconductor manufacturing equipment, as well as electrical contacts, heat sinks and other electronic components that require high temperature stability and good thermal conductivity. High-temperature furnace components: Molybdenum components are used in the construction of high-temperature furnaces, such as those used in glass, ceramics and steel production, where they have excellent heat resistance and mechanical strength. Medical Devices: Molybdenum components are used in medical devices and equipment due to their biocompatibility and corrosion resistance, making them suitable for applications such as implants and surgical instruments. Glass Manufacturing: Molybdenum components are used in the glass production process for electrodes, feeds, and other components that must withstand the high temperatures and corrosive environments of glass manufacturing operations. Lighting and Thermal Applications: Molybdenum is used in a variety of lighting applications, including lamp assemblies and filament holders, as well as heat sinks and other components designed to efficiently manage and dissipate heat. Overall, molybdenum formed machined parts are valuable in industries that require materials to withstand extreme temperatures, corrosive environments, and high mechanical stress while maintaining their structural integrity and functionality.
Product Name | Molybdenum shaped machined parts Industrial availability |
Material | Mo1 |
Specification | Customized |
Surface | Black skin, alkali washed, polished. |
Technique | Sintering process, machining |
Meltng point | 2600℃ |
Density | 10.2g/cm3 |
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