High Purity Molybdenum Carbide Mo2C Powder CAS 12069-89-5, 99% | 3pdm


Jan 21, 2023

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Molybdenum Carbide (chemical formula Mo2C). It features high melting and hardness with good thermal stability. Particle size: -325mesh Purity: 99% Molybdenum carbide powder Molecular Formula HTML2C. Molecular Weight is 202.38, and the Carbon Content is 5.89%. It is a dark gray metallic powder with tightly packed hexagonal-shaped crystal lattice. Molybdenum-carbid density of 9.18g/cm Molybdenum-carbid melting points are 2690. The material can be considered a new kind of functional material because it is high in melting point, hardness and has good thermal, mechanical, and corrosion resistance. It has been used extensively in chemical corrosion resistance, wear-resistance, and high-temperature resisting. Mo carbonide has hexagonal crystal structures, a= 0.30029nm, and c= 0.472895nm. Micro Vickers hardness is 50g/m2 for load 50g. This compares to 2080kg in WC. Molybdenum Carbide Mo2C is powdered in bulk. Molybdenum Carbide Mo2C Mo2C Mo2C Mo3C Powder: Molybdenum cadmium CAS 12069-95-8, is a hexagonal grey crystal. It exhibits high melting points and hardness. Also, the material has excellent thermal and mechanical stability. It has an melting point of 2692°C. Molecular formula: Mo2C CAS code: 12069-89-5 Properties:gray and black metal powder Melting point: 2690 Density: 5.89g/cm3 Technical Parameters for Molybdenum Carbide Mo2C Mo3C Powder Chemical composition Mo+C Test results (%) 99 11.3 0.2 0.02 0.4 0.12 Molybdenum Carbide Mo2C Flourishing Production? 1. Most commonly, molybdenum carbide is prepared first by using a molybdenum or carbon chemical method, metaloxide and carbon reduction-chemical process, and finally in a vacuum (or reducing atmosphere) in the Carbon tube Furnace. 2. After molybdenum, carbon black have been fully combined they are ground up in a mill. Then they are shaped by pressing into a shape. Next, the hydrogen gas stream cools the product and allows it to be calcined between 1350 and 1500°C. Finally, it’s cooled down, ground, and crushed. Instead of using the molybdenum sulfate reduction method, molybdenum trichloride or molybdenum dioxide can be used. 3. Auxiliary bath with metal. As the auxiliary, choose Mo: Co and heat to create a molecular bath. 4. This product is made by the carbonization or metallic molybdenum. Molybdenum molybdenum dioxide MoO3 will be hydrogenated, and then reduced to form molybdenum dust. This mixture of molybdenum molasses and carbon black (Mo934% (mass), and C6.6% respectively) is then dry-mixed over a 10 hour period in a mill and pressure-molded under 1t/cm2. To heat the pressurized material, place it into a graphite pot or crucible. Once heated to 14001500, use pure hydrogen with a dewpoint around -35. Mo2C may be created by carbonizing molybdenum. 5. By using synthetic methods. Mix the molybdenum-molybdenum powder with carbon black according to Mo93.4%. This is then used to grind for 1 hour in a mill, before being pressurized to make it. By hydrogen gas flow, the product can be calcined at 1350-1500°C for one hour. Then, the product must be cooled, pulverized, and grinded. In order to get molybdenum cabride, molybdenum dioxide or molybdenumtrioxide can be used in place of the molybdenum-powder mixture. Molybdenum Denum Carbide Mo2C Puffer: Molybdenum carbide is a brand new functional material. This has an excellent melting point and hardness. It has been widely utilized in many high temperature and abrasion areas as well as chemical corrosion. It also has similar electronic structures and catalytic abilities to other noble metals. 1. A catalyst that has an electronic structure similar to those of noble metals, molybdenum-carbid can be used extensively to catalyze hydrogen-related reactions, including the isomerization alkanes, hydrogenation unsaturated hydrocarbons (hydrodesulfurization) and denitrification. 2. Molybdenum carbide is an important component of molybdenum-molybdenum carbide hard coatings and other cermet coatings, and can also be used alone as a wear-resistant and wear-resistant coating; 2. Molybdenum citride is widely used for hydrogen-related reactions. 3. It is possible to make special alloys without chromium and engineering ceramics using molybdenum-carbide. 4. Molybdenum carbide has many uses, including as an extremely hard tool material, wear resistant material, heat element material and high temperature structural material. 5. It is used in the manufacture of semiconductor films and wear-resistant films using molybdenum caride. 6. It is possible to create chromiumless special alloys using molybdenum carbide. MolybdenumCarbide Mo2C Mo3C Powder Storage: Molybdenum Carbide Mo2C slurry dispersion performance will be affected and the use of Mo2C powder may be adversely affected. Molybdenum Carbide Mo2C slurry should be kept dry and in vacuum packaging. Mo2C should also be avoided when under stress. Packing & Shipping of Molybdenum Carbide Mo2C Puffer We offer many kinds of packing, which depend on the Molybdenum Mo2C Powder Quantity. Molybdenum Carbide Mo2C Mo2C Powder Packaging: Vacuum packing, 100g 500g or one kg/bag, 25kg/barrel. Molybdenum Carbide Mo2C Mo2C Pulp shipping: can be sent out by Sea, Air, or Express as soon after receipt of payment. 3pdm Advanced Material. With over twelve years of industry experience, (3pdm), a reliable global supplier and manufacturer, provides super-high quality chemicals and nanomaterials. Contact us if you need high-quality mo carbonide powder. (brad@ihpa.net) 3pdm advanced materials. With over twelve years of industry experience, (3pdm), a reliable global chemical material manufacturer, supplier, and manufacturer, provides super-high quality chemicals and nanomaterials. Contact us if you need Mo2C powder that is high-quality. (brad@ihpa.net)

MolybdenumCarbide Property

Mo2C – 12069-89-5 Mo2C 203.89 Appearance Gray Powder Melting Point 2690 Boiling Point N/A Density 9.18 g/cm3 Solubility H2O N/A Exact N/A

Molybdenum Carbide Health & Safety Information

Signal word N/A Hazard Statements N/A Hazard Codes N/A Risk Codes N/A Safety Statements N/A Travel Information N/A
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