Vanadium Boride Sputtering Targets
Vanadium Boride Sputtering Targets
Vanadium Boride Sputtering Targets | |
Product No | NRE-43596 |
CAS No. | 12045-27-1 |
Formula | VB |
Molecular Weight | 61.75 |
Purity | >99.9% |
Density | 5.54 g/cm3 |
Thickness | 3 mm ± 0.5mm (can be customized) |
Diameter | 50 mm ± 1mm (can be customized) |
Shape | Round |
Resistivity | NA |
Thermal Conductivity | NA |
Vanadium Boride Sputtering Targets
Introduction:
Vanadium boride sputtering targets is a hard and refractory compound formed by the combination of vanadium and boron. Known for its exceptional hardness, high melting point, and thermal stability, vanadium boride has garnered attention in various industrial applications. Sputtering targets made from vanadium boride are used in physical vapor deposition (PVD) processes to produce thin films with desirable properties, making them valuable in numerous high-tech sectors.
Applications
Hard Coatings: Vanadium boride is widely used to produce hard coatings for cutting tools, dies, and industrial machinery. Its outstanding wear resistance enhances the durability and performance of these tools in challenging environments.
Wear-Resistant Films: Coatings made from vanadium boride are applied to surfaces requiring enhanced abrasion and wear resistance. This is particularly beneficial in automotive and aerospace applications, where component longevity is critical.
Electrical Contacts: The conductive properties of vanadium boride make it suitable for use in electrical contacts and connectors, ensuring reliable performance in electronic devices and circuits.
Magnetic Materials: Vanadium boride can be utilized in the production of magnetic materials, contributing to applications in sensors, memory devices, and other electronic components.
Thermal Barrier Coatings: Due to its high melting point, vanadium boride can serve as a thermal barrier in high-temperature applications, protecting substrates from heat damage and improving overall performance.
Research Applications: Vanadium boride sputtering targets are used in laboratories and research settings to investigate new materials and technologies, including studies focused on superconductivity and advanced ceramics.