Tungsten boride, also known as black powder, has the following physical properties: a molecular form WB2, metal conductivity with soluble in aqua regia. Purity>99%
Particle size range: 10-20um

About Tungsten Boride WB2:
Tungsten-boride consists of tungsten boride and boron. They are characterized by their high hardness. Vickers hardness is 20GPa of WB or diboride tungsten WB2 and 30GPa of WB4 for loads greater than 3N.
Tungsten boride density is 10.77 and tungsten boride melting point is about 2900degC. It is not a degrader of water, but can degrade aqua regina.
It is made by heating boron-tungsten powders to high temperatures.
Tungsten-boride possesses comprehensive properties including a high melting temperature, high hardness, and chemical stability. It is a superhard, high melting-point material. This material is important for the military as it's bulletproof.
The rich phase diagrams of tungsten-alloys and the structure of the different phases have been changing for more than fifty years.
The highest boron-containing boride (WB4) has a three dimensional grid of boron molecules. We combine the thermodynamics stability with the principal calculation and then study the thermodynamics stability and mechanical properties.
The highest boride used to identify tungsten, WB3, should consist of two-dimensional plane grids composed of boron. The borate system for tungsten's shear modulus was found to change the energy of its formation. It was found that mechanical properties were closely related to thermodynamic stability.
A high temperature and pressure sintering process is used to achieve the dense tungsten triboride. This is due to WB2's free diffusion coefficient. This reduces the amount of tungsten diboride and increases its cost.
The boron content is not easily measurable when preparing WB2 from tungsten or boron powder.
It can also cause hypoborate to form during the sintering phase, and compact bulk materials with WB2 being the main phase will not be possible.

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How is Tungsten Boride WB2 produced?
1. After mixing and grinding the raw materials tungsten and boran, heat them and react above 1400°C to produce tungsten boreide. Continue the reaction to form W2B. Cool and crush this product.
2. Tungsten is combined with stoichiometric powder boron at a molar ration of W:B=2 to 1, and sintered under vacuum or in an argon atmosphere between 1200degC and 1300degC, to obtain two tungsten bore.
3. Use the solid-phase method. Tungsten boride can be prepared by combining metal tungsten with boron. The reaction formula can be found below. The stoichiometric metal powder tungsten is mixed with elemental boron, then ground and molded. It is heated, heated, heated, heated, and reacted above 1400degC, to produce tungsten Boride. Continue the reaction, resulting in W2B. The product is obtained by cooling and crushing the W2B.

Tungsten boride WB2 powder Feature

Tungsten boride powder Molecular formula: WB2

Tungsten boride powder CAS NO:12007-09-9

Tungsten boride powder density:10.77g/cm3

Tungsten boride powder melting point:2900

Tungsten Boride powder Solubility & Stability

It does not dissolve in water. 100 can be decomposed by chlorine gas.

Tungsten boride powder Purity: >99%

Tungsten boride powder Particle size: 10-20um

Applications Tungsten Boride
Wear-resistant layer for wear parts.
WB compounds exhibit high melting points, high conductivity and wear resistance. They are also resistant to corrosion, high temperature and wear. The compounds are also used for structural materials, wear resistant materials, and electrodes. Materials and many other fields. Tungsten boride can be produced through the reaction between metal tungsten (metal tungsten) and element boron heated in an electric oven. It has all the properties of the W-B series compounds, and it has a wide range of applications in the future.
1) Prepare the workpiece with the tungsten rich coating. This includes a workpiece base, a tungsten layer and a gradient layer of tungsten.
2) To produce a hard material made of tungsten, diboride is first synthesized at room temperature using tungsten powder (W) and boron powder (B). Then, in an argon atmosphere under a protective environment, a high-temperature process of sintering densifies the powder. This method is able to obtain compact tungsten-diboride bulk material by sintering at normal temperatures and pressures. The tungsten-diboride bulk material is characterized by excellent properties including good neutron absorption, stability, and hardness. It can be used for a wide variety of purposes, including cutting tools, corrosion-resistant material, and new shielding materials.

Storage condition of Tungsten-boride WB2 (Powder)
As the dampness of the room will affect both WB2 dispersion properties and its use, tungsten Boride WB2 should be stored in a dry and cool environment. WB2 powder must also not be exposed to stress.

Packaging & Shipping tungsten boride powder WB2:
The quantity of WB2 powder and the type of packing we use will determine which one is best for you.
Tungsten boride powder WB2 packing: Vacuum packaging, 100g,500g or 1kg/bag; 25kg/barrel. Or as per your request.
Tungsten boride powder WB2 shipping: Could be shipped by air or sea as soon after payment receipt.



Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with over 12 years' experience in the production of high-quality Nanomaterials. This includes boride powders, graphite particles, sulfide particles, 3D printing materials, etc.
You can contact us to send an inquiry if you are interested in high quality tungsten-boride powder. (brad@ihpa.net)

Tungsten Diboride Properties
Alternative Names	tungsten boride, WB2 powder, tungsten boride WB2
CAS Number	12007-09-9
Compound Formula	WB2
Molecular Mass	205.5
Appearance	Gray Black Powder
Melting Point	2365 degC
Boiling Point	N/A
Density	N/A
Solubility In H2O	N/A
Vickers Hardness	20 GPa
Exact Count	205.969544 g/mol
Tungsten Diboride Health & Safety Information
Sign Word	N/A
Hazard Statements	N/A
Hazard Codes	N/A
Risk Codes	N/A
Safety Declarations	N/A
Transport Information	N/A

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