Molybdenum Foil
Our molybdenum plates (molybdenum Foil) have stable internal structure, high density, high temperature resistance and the same mechanical properties. Molybdenum sheets (molybdenum sheets) are free of scratches, roll marks, wrinkles, dents, cuts, discoloration or imperfections of any kind and have been manufactured to ASTM B 386 standards.
Molybdenum foil is a thin sheet material made of molybdenum (Mo) or its alloy, which has a high melting point, good electrical conductivity and thermal stability, and corrosion resistance. These properties make molybdenum foils very useful in electronics, lighting and high-temperature industrial applications. Here are some features and applications of molybdenum foil:
1. High melting point: Molybdenum foil has a very high melting point (approximately 2623°C or 4809°F), which allows molybdenum foil to remain solid at temperatures where most other metals melt, making it ideal for use in smelting processes and applications at high temperatures. .
2. Corrosion resistance: Molybdenum foil has good corrosion resistance to many chemicals, especially in reducing environments. Therefore, it can be used to treat substances that will corrode or react with ordinary metal foil materials.
3. Thermal stability: Molybdenum foil has good thermal stability and can withstand rapid heating and cooling without cracking or deformation.
4. Electrical conductivity: Molybdenum foil has a certain electrical conductivity, which means it can be used for electric heating and other electrical applications.
5. Applications: Molybdenum foil is commonly used in the electronics industry, lighting equipment (such as filament holders for incandescent light bulbs), high-temperature furnace components, heat shields and heat reflectors, vacuum furnaces and heat treatment equipment, melting electrodes in glass manufacturing, etc.
6. Production materials: Although pure molybdenum can be used to make foils, in order to improve its strength and oxidation resistance, molybdenum alloys are usually used, or a layer of anti-oxidation coating is applied to the molybdenum surface.
Due to its unique high temperature resistance properties, molybdenum foil is very valuable in areas such as processing refractory metals, advanced ceramics and special alloys. However, due to their higher cost and operational complexity, their use is usually limited to those specialized situations requiring extreme temperature conditions.
1. High melting point: Molybdenum foil has a very high melting point (approximately 2623°C or 4809°F), which allows molybdenum foil to remain solid at temperatures where most other metals melt, making it ideal for use in smelting processes and applications at high temperatures. .
2. Corrosion resistance: Molybdenum foil has good corrosion resistance to many chemicals, especially in reducing environments. Therefore, it can be used to treat substances that will corrode or react with ordinary metal foil materials.
3. Thermal stability: Molybdenum foil has good thermal stability and can withstand rapid heating and cooling without cracking or deformation.
4. Electrical conductivity: Molybdenum foil has a certain electrical conductivity, which means it can be used for electric heating and other electrical applications.
5. Applications: Molybdenum foil is commonly used in the electronics industry, lighting equipment (such as filament holders for incandescent light bulbs), high-temperature furnace components, heat shields and heat reflectors, vacuum furnaces and heat treatment equipment, melting electrodes in glass manufacturing, etc.
6. Production materials: Although pure molybdenum can be used to make foils, in order to improve its strength and oxidation resistance, molybdenum alloys are usually used, or a layer of anti-oxidation coating is applied to the molybdenum surface.
Due to its unique high temperature resistance properties, molybdenum foil is very valuable in areas such as processing refractory metals, advanced ceramics and special alloys. However, due to their higher cost and operational complexity, their use is usually limited to those specialized situations requiring extreme temperature conditions.