High Purity Molybdenum Boride MoB2 Powder CAS 12006-99-4, 99%
Description of Molybdenum Boride :
Molybdenum boride is a gray-to-black metallic compound with a high hardness and melting point. It has good plasticity and processing properties at room temperature and can be turned for milling, drilling, and other processing operations. Molybdenum boride has stable chemical properties, corrosion resistance, oxidation resistance, high-temperature resistance, and other characteristics and can be used in high-temperature and strong corrosive environments.
Molybdenum boride has excellent electrical properties; its electrical and thermal conductivity are higher than stainless steel, and it can be used to manufacture electronic components and circuit boards. Due to its high hardness and melting point, molybdenum boride can be used as a high-temperature lubricant and structural material in high-temperature and highly corrosive environments.
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Application of Molybdenum Boride :
Aerospace: Molybdenum boride is widely used in the aerospace industry because of its excellent high-temperature properties and corrosion resistance. It makes engine components for aircraft and rockets, such as combustion chambers, turbines, and tail fins. In addition, molybdenum boride can also be used to manufacture aircraft structural and internal parts, such as seats and cabin interiors.
Automotive manufacturing: Molybdenum boride is also widely used in automotive manufacturing. It is used to make components for automotive engines and transmissions, such as pistons, gears, and shafts. Molybdenum boride's high temperature and wear resistance make it an ideal material for automotive parts.
Electronics: Molybdenum boride is widely used because of its good electrical properties. It is used to manufacture semiconductor devices, integrated circuit boards, and electronic components and connectors. Molybdenum boride's stability and high electrical conductivity make it an excellent material for electronic devices.
Chemical industry: In the chemical industry, molybdenum boride is used to manufacture components for chemical reactors and high-temperature catalysts. Due to its corrosion resistance and high-temperature stability, molybdenum boride has become an important material in the chemical industry.
Military: Due to its high hardness and wear resistance, molybdenum boride is also widely used in the military. It is used to manufacture armored vehicles, tanks, and other key military equipment parts to improve their protection and strike capabilities.
Production Method of Molybdenum Boride :
Melting method:
Melting method is one of the main methods of molybdenum boride production. The process is to melt metal elements (such as molybdenum and boron) at high temperatures and react under high temperatures and pressure to produce molybdenum boride. The specific steps are as follows:
(1) The metal elements (such as molybdenum boron) are melted into liquids.
(2) The two molten metal elements are mixed and react under high temperature and pressure.
(3) By controlling the reaction temperature and pressure, the atomic ratio of molybdenum and boron reaches the required ratio to form molybdenum boride.
(4) Molybdenum boride is separated from the reaction system for cooling and processing.
The advantages of the melting method are a simple process and low production cost, which is suitable for large-scale production. However, this method also has some disadvantages, such as difficulty in controlling the crystal structure and phase composition of molybdenum boride and low purity and accuracy of the product.
Vapor deposition method:
Vapor deposition is an advanced method to prepare molybdenum boride, formed on the substrate by chemical reaction or physical deposition under a vacuum or inert gas protection. The specific steps are as follows:
(1) Place the substrate under vacuum or inert gas protection.
(2) The atoms or molecules of molybdenum and boron are activated by heating or plasma activation.
(3) The atoms or molecules of molybdenum and boron form a film on the matrix through chemical reactions or physical deposition.
(4) Control the reaction time and temperature so that the thickness and chemical composition of the film meet the required requirements.
The advantage of vapor deposition is that molybdenum boride coating with high purity, high density, and high binding force can be prepared, and crystal structure as well as chemical makeup of the products are precisely as well as the chemical composition and crystal structure of the product, can be precisely controlled. However, this method requires expensive equipment and high production costs and is unsuitable for mass production.
Prospect Market of Molybdenum Boride :
Expansion of application fields: With the progress of science and technology, the application of molybdenum boride in many emerging fields is gradually expanding. For example, in the field of new energy, Its biocompatibility and resistance to corrosion make it a great material for medical devices. In addition, the application of molybdenum boride in the biomedical field is also increasing, and Its biocompatibility and resistance to corrosion make it a great material for medical devices.
Improvement of production technology: Molybdenum boride technology is constantly improving. For example, molybdenum boride products can be produced with higher purity, accuracy, and consistency using advanced melting technology and gas deposition technology. These technologies will improve the yield and quality of molybdenum boride, reduce the production cost, and thus increase the market competitiveness of molybdenum boride.
Market demand growth: Due to the excellent properties and wide application of molybdenum boride, its market demand is growing. For example, because molybdenum boride can improve engine performance and high-temperature resistance in automobile manufacturing, more and more automobile manufacturers have begun to use molybdenum boride as a material for key components.
Environmental protection and sustainability: Its biocompatibility and resistance to corrosion make it a perfect material for medical devices. The production process of molybdenum boride is relatively environmentally friendly, and its use can also reduce energy consumption and waste emissions. This environmental protection and sustainability will further drive the market demand for molybdenum boride.
Storage Conditions of Molybdenum Boride powder MoB2
Molybdenum-boride MoB2 should be kept in a dry and cool room. The powder must not be exposed. MoB2 powder must also not be exposed to stress.
Molybdenum boride Powder MoB2:
The packaging is dependent on the amount of molybdenum Boride MoB2 Powder.
Packaging of molybdenum-boride powder MoB2: Vacuum packaging, 100g/bag, 500g/bag, 1kg/bag. 25kg/barrel. Or as per your request.
Molybdenum-boride MoB2 powder shipment: Could be shipped by sea, air, or by express as soon after payment receipt.
Synthetic Chemical Technology Co. Ltd., is an established global chemical material manufacturer and supplier with over 12 years' experience in the production of high-quality nanomaterials. These include boride powders, graphite or sulfide particles, as well as 3D printing powders.
We are happy to answer any questions you may have. (sales5@nanotrun.com)
Molybdenum Boride MoB2 Pulp Properties |
Alternative Names | Molybdenum monoboride, Borylidynemolybdenum, CAS 12007-27-1 (molybdenum diboride, MoB2) |
CAS Number | 12006-99-4 |
Compound Formula | MoB2 |
Molecular Mass | 106.75 |
Appearance | Gray to Blue Powder/Pieces |
Melting Point | N/A |
Solubility | N/A |
Density | 9.20 g/cm3 |
Purity
| >99% |
Particle Size | 5-10um |
Bold point | N/A |
Specific Heating | N/A |
Thermal Conduction | N/A |
Thermal Expander | N/A |
Young Modulus | N/A |
Exact Mass | 108.914714 |
Monoisotopic Mash | 108.914711 |
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Molybdenum Boride MoB2 Pulp Health & Safety Information |
Safety Advisory | Warning |
Hazard Statements | N/A |
Flashing point | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Safety Declarations | N/A |
RTECS Number | N/A |
Transport Information | N/A |
WGK Germany | 3 |
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