What’s molybdenum silicide, you ask?
Molybdenum silicide
This inorganic compound has the chemical name MoSi2; it is a gray metallic liquid. While it’s insoluble with most acids, it can be dissolved in hydrofluoric or nitric. Although the radii are similar, electronegativity and the radii of both atoms is very close. It also has properties comparable to those found in ceramics and metals. To prevent further oxidation, molybdenum silicide forms an electricallyconductive layer that acts as a silica passivation on the surface. It’s used as a high-temperature antioxidant coating material, electric heating element, integrated electro films, structural materials and reinforcing agent for composite materials.
Prepare molybdenum silicide
MoSi2 can also be made by directly reacting two elements Si or Mo. Here is the reaction formula
MoSi2 (intermediate phase) is the most silicon-rich in the Mo-2 binary alloy. This is a Dalton type intermetallic compound and has a fixed structure. The material is both a metal- and ceramic mixture and has exceptional performance at high temperatures. It is resistant to high temperatures, with oxidation resistance above 1600. That is, it is comparable to SiC. MoSi is used primarily as a heating element.
MoSi2 molybdenum has metallic bonds that bond to silicon. Silicon is covalently bound to it. It is not soluble with mineral acids (including aqua regia), but it can be dissolved in hydrofluoric acid. This mixture has excellent high-temperature resistance to oxidation.
High-temperature burning dense quartz glass (SiO2) is used to create a protective layer on the surface. This protects against the continuous oxidation molybdenum silicide. SiO2 protective films are formed when temperatures exceed 1700°C. They thicken at the melting point of 1710°C and fuse into SiO2 drops. Because of the surface expansion, it loses some of its protective properties. If the element is constantly exposed to an oxygenizing agent, the protective coating is formed as a protective film. You should note that the element is not safe to be exposed for long periods of time at temperatures below 400°C.
Application of silicides made from molybdenum
In the fields of high-temperature antioxidants coating materials and electric heating elements, molybdenum siliconicide is used.
1) The chemical and energy industries: gas burners, electric heating elements and high temperature heat exchangers to atomic reactor device, gas burners, thermocouples for high temperatures and their protection tube, melting vesselcrucibles (for melting sodium and lithium, bismuth, lead and tin).
2) Industry of microelectronics: MoSi2 as well as other refractory metallic silicides like Ti5Si3, WSi2, TaSi2, TaSi2, among others. These candidates are crucial for the creation of interconnecting line film and large-scale integrated circuits.
(3) Aerospace industry. It is a highly-researched and extensively used anti-oxidation coating material for high temperatures. It’s used as a turbine engine component, including blades, impellers tailpipes and combustors.
(4) Automobile industry: Supercharger rotor for turbo engines, body and spark plugs, as well as engine parts.
(aka. Technology Co. Ltd. (aka. It is the Molybdenum silicide It is high in purity and fine particles, with low levels of impurities. We appreciate your cooperation. Get in touch if necessary.
Prepare molybdenum silicide
MoSi2 can also be made by directly reacting two elements Si or Mo. Here is the reaction formula
Mo+2Si-MoSi2
Physical properties of the molybdenum silicide
MoSi2 (intermediate phase) is the most silicon-rich in the Mo-2 binary alloy. This is a Dalton type intermetallic compound and has a fixed structure. The material is both a metal- and ceramic mixture and has exceptional performance at high temperatures. It is resistant to high temperatures, with oxidation resistance above 1600. That is, it is comparable to SiC. MoSi is used primarily as a heating element.
MoSi2 molybdenum has metallic bonds that bond to silicon. Silicon is covalently bound to it. It is not soluble with mineral acids (including aqua regia), but it can be dissolved in hydrofluoric acid. This mixture has excellent high-temperature resistance to oxidation.
High-temperature burning dense quartz glass (SiO2) is used to create a protective layer on the surface. This protects against the continuous oxidation molybdenum silicide. SiO2 protective films are formed when temperatures exceed 1700°C. They thicken at the melting point of 1710°C and fuse into SiO2 drops. Because of the surface expansion, it loses some of its protective properties. If the element is constantly exposed to an oxygenizing agent, the protective coating is formed as a protective film. You should note that the element is not safe to be exposed for long periods of time at temperatures below 400°C.
Application of silicides made from molybdenum
In the fields of high-temperature antioxidants coating materials and electric heating elements, molybdenum siliconicide is used.
1) The chemical and energy industries: gas burners, electric heating elements and high temperature heat exchangers to atomic reactor device, gas burners, thermocouples for high temperatures and their protection tube, melting vesselcrucibles (for melting sodium and lithium, bismuth, lead and tin).
2) Industry of microelectronics: MoSi2 as well as other refractory metallic silicides like Ti5Si3, WSi2, TaSi2, TaSi2, among others. These candidates are crucial for the creation of interconnecting line film and large-scale integrated circuits.
(3) Aerospace industry. It is a highly-researched and extensively used anti-oxidation coating material for high temperatures. It’s used as a turbine engine component, including blades, impellers tailpipes and combustors.
(4) Automobile industry: Supercharger rotor for turbo engines, body and spark plugs, as well as engine parts.
(aka. Technology Co. Ltd. (aka. It is the Molybdenum silicide It is high in purity and fine particles, with low levels of impurities. We appreciate your cooperation. Get in touch if necessary.
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