Vanadium Boride (VB2) Powder (Sub-microns and Nano Powder)
Princeton Powder is a leading supplier of Ultra-pure vanadium boride nanocomposite powder, offering Nano-scale and Micronized powder with reduced oxygen level. Our Vanadium Boride refractory powder is mainly used for high temperature and corrosive resistance applications.
We provide a wide range of Vanadium powders including Vanadium Carbide Powder and Vanadium Nitride Powder. Our anadium Boride ceramic powder is for sale at a competitive price in the United States, Canada, and Europe.
Formula | Vanadium Boride (VB2) |
CAS Number | 12045-27-1 |
Purity | 99.5% min |
Synonyms | Vanadium Boride nano powder, Vanadium Boride powders, Vanadium Boride fine powder, Vanadium Boride microns powder |
Particle Sizes | 325 mesh or be customized |
Appearance | Black Gray Color |
Melting Point | 2980°C |
Boiling Point: | N/A |
Density | 4.1 g/cm3 |
Crystal structure | Hexagonal |
Description of Vanadium Boride (VB2) Powder
Vanadium boride (VB₂) powder is a hard, refractory ceramic material known for its high melting point and excellent thermal stability. It possesses exceptional hardness and strength, making it suitable for applications in cutting tools, wear-resistant coatings, and advanced ceramics. VB₂ also exhibits excellent electrical conductivity and oxidation resistance, which makes it valuable in high-temperature and corrosive environments. Its unique combination of mechanical and thermal properties allows for use in aerospace, energy, and industrial applications. Furthermore, vanadium boride’s ability to maintain performance under extreme conditions makes it ideal for demanding engineering projects.
Chemical Composition of Vanadium Boride (VB2) Powder
Product | Particle Size (um) | Chemical Composition (%) | |||
B | C | O | N | ||
VB2 | 1.0 – 3.0 | 28.0 – 31.0 | <0.5 | <1.0 | <0.5 |
Particle Size Vanadium Boride (VB2) Powder
1-3 um, -325 mesh, Nanosized powder (Various particle sizes can be customized)
Application
Vanadium boride (VB₂) powder is primarily used in the production of cutting tools and wear-resistant materials due to its exceptional hardness and thermal stability. It is also employed in the manufacturing of advanced ceramics and coatings for high-temperature applications, providing excellent resistance to oxidation and corrosion. Additionally, VB₂ is utilized in electronics and semiconductor industries for its good electrical conductivity and thermal management properties.
Reference
- In this research, cobalt-vanadium boride (Co-VB) nanocomposite was synthesized from powder mixture of cobalt oxide (Co3O4), vanadium oxide (V2O5), boron oxide (B2O3) and magnesium (Mg), via high energy ball milling. Regarding the value of adiabatic temperature, Co-VB nanocomposite has a potential to be the result of an induced self-sustaining reaction. The produced composite powder at various milling times was evaluated by X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscopy (TEM).