Structure and Properties of Molybdenum Carbide Mo2C Powder
The European Commission has submitted to member states a new draft of sanctions against Russia, including an oil embargo. Some member states that rely heavily on Russian energy sought exemptions.
Western media reported that the European Commission draft of the sixth round of sanctions against Russia includes within six to eight months gradually banning oil imports from Russia, but allowing Hungary and Slovakia to extend the transition period for several months; The Russian Savings bank and other large financial institutions on the sanctions list.
The European Union has imported 44 billion euros of fossil fuels from Russia since Russia launched its special military operation against Ukraine in late February, according to Finland's Energy and Clean Air Research Center.
The Institute for European and Global Economics in Brussels estimates that the European Union currently consumes about $450 million worth of Russian oil a day.
Among EU members, landlocked Hungary and Slovakia, which import most of their oil from Russia, cannot quickly find alternative supplies. Slovakia says the transition will take years. Some officials believe Bulgaria and the Czech Republic may also seek to opt out of oil sanctions against Russia.
Affected by the ever-changing international situation, the supply and prices of international bulk Molybdenum Carbide Mo2C Powder,Overview of Molybdenum Carbide Mo2C Powder,Application of Molybdenum Carbide Mo2C Powder,Molybdenum carbide Mo2C powder price,Molybdenum Carbide Mo2C Powder Supplier are still very uncertain.
Overview of Molybdenum Carbide Mo2C Powder
The molecular formula of molybdenum carbide is Mo2C, the molecular weight is 203.88, and the carbon content is 5.89%. It is a dark gray metallic powder that crystallizes into a dense hexagonal lattice. Density 9.18g/cm3, melting point 2690 ℃.
As a new functional material with high melting point and hardness, good thermal and mechanical stability, and good corrosion resistance, it has been widely used in various fields such as high temperature resistance, friction resistance, and chemical corrosion resistance.
It has similar electronic structure and catalytic properties as precious metals, and can be widely used as a catalyst for hydrogen-containing reactions such as alkane isomerization, unsaturated hydrocarbon hydrogenation, hydrodesulfurization, and denitration. High hardness, wear resistance and wear resistance. It is an important component of molybdenum-molybdenum carbide hard coatings and other cermet coatings, and can also be used as wear and scratch resistant coatings.
Metal carbides are generally considered to have interstitial alloy structures. In common interstitial alloys, metal atoms are arranged in the form of face-centered cubic (FCC), hexagonal dense packing (HCP), and simple hexagonal (HEX), and non-metallic atoms enter the space between the metal atoms. The most common types of gaps between metal atoms are octahedrons and triangular prisms. The crystal structure of metal carbides depends on geometric and electronic factors. The geometric factor can be described by Hager's rule of thumb: when the atomic ratio of nonmetal to metal is below 0.59, simple crystal structures are formed. Interestingly, although metal carbides have simple crystal structures, few of these compounds have the same crystal structure as their parent metals. For example, molybdenum metal has a body-centered cubic structure, while its stable carbides have a hexagonal close-packed structure, and oxycarbides have a face-centered cubic structure. Another factor that determines the crystal structure of interstitial alloys is the electronic factor. The bonding in these compounds results from the cooperation between the sP orbitals of nonmetals and the SPD orbitals of metal atoms.
Application of Molybdenum Carbide Mo2C Powder
1. Nano molybdenum carbide is used as coating material and also as additive material. Also, it is commonly used in particle reinforced alloys.
2. Molybdenum carbide has similar electronic structure and catalytic properties as precious metals, and has the activity of catalyzing hydrogen denitration, hydrolysis and isomerization reactions.
Molybdenum carbide is in many respects in phase with the platinum group noble metals. In particular, its hydrogenation activity is comparable to that of precious metals such as Pt and Pd, and it is expected to become a substitute for precious metals.
4. It can manufacture chromium-free special alloys and engineering ceramics. Used as hard tool material, wear-resistant material, heating material, high temperature structural material.
5. It is used to make wear-resistant films and semiconductor films. It can also be used as a raw material for the production of molybdenum carbide. It can be used to manufacture special alloys and engineering ceramics that do not contain chromium.
Molybdenum carbide Mo2C powder price
The price of molybdenum carbide Mo2C powder varies randomly with the production cost, transportation cost, international conditions, exchange rate, market supply and demand and other factors of molybdenum carbide Mo2C powder. Tanki New Materials Co.,Ltd aims to help various industries and chemical wholesalers find high-quality, low-cost nanomaterials and chemicals by providing a full range of customized services. If you are looking for Molybdenum Carbide Mo2C Powder, please feel free to contact us for the latest price of Molybdenum Carbide Mo2C Powder.
Molybdenum Carbide Mo2C Powder Supplier
As a global supplier of molybdenum carbide Mo2C powders, Tanki New Materials Ltd. has extensive experience in advanced engineering material properties, applications and cost-effective manufacturing. The company has successfully developed a series of powder materials (including boron carbide, aluminum carbide, titanium carbide, etc.), high-purity targets, functional ceramics, structural devices, and provides OEM services.
|Molybdenum Carbide Properties|
|Other Names||dimolybdenum carbide, Mo2C powder|
|Solubility in H2O||N/A|
|Molybdenum Carbide Health & Safety Information|
The EU’s draft REPowerEU plan calls for an increase of 15TWh of rooftop PV capacity by 2022. The draft also calls for EU and national governments to take action this year to reduce the time required to obtain permits for rooftop PV installations to three months, and proposes that "all new buildings and existing buildings with an energy grade OF D or above should have rooftop PV installations by 2025".
In addition, the European Commission is likely to set a target for installed PV capacity of 300GW by 2025 and 500GW by 2030. Some members are more aggressive, with Austria, Belgium, Lithuania, Luxembourg, and Spain demanding a 1TW target for 2030.
The REPowerEU initiative, worth 195 billion euros, was proposed by the EU on March 8 to phase out member states' dependence on Russian fossil fuels by 2030. In a few days, the European Commission will present a package to implement the RePowerEU strategy.
As an important application scenario of distributed PV, rooftop PV is not limited to land, and the development conditions are relatively convenient.
Since the end of 2021, Spain, France, the Netherlands, and other countries have introduced policies and measures such as government subsidies, tax cuts, fee reductions, and accelerated grid-connection approval to encourage the development of distributed PV. Europe's potential for rooftop PV is huge and will continue to be an important growth pole for the industry, according to Wood Mackenzie.
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