Tantalum Diboride Powder
Tantalum Diboride Powder
Tantalum Diboride Powder | |
Product No | NRE-11234 |
CAS | 12007-35-1 |
Purity | 99.9% |
Formula | TaB2 |
APS | <40 µm (Can be Customized) |
Color | NA |
Molecular Weight | 202.57 g/mol |
Density | NA |
Melting Point | NA |
Boiling Point | NA |
Tantalum Diboride Powder
Applications:
Cutting Tools and Abrasives:
Hardmetal Alloys: Tantalum diboride is commonly added to tungsten carbide (WC) and other metal matrix composites to enhance their hardness and wear resistance. This makes TaB₂ a valuable material in the production of cutting tools, drill bits, and abrasive tools used in industries such as mining, metalworking, and machining.
Wear-Resistant Coatings: Tantalum diboride coatings are applied to machine parts, tools, and components that experience abrasion, improving their longevity and performance under extreme wear conditions.
Aerospace and Defense:
Thermal Protection Systems: Due to its high thermal stability and resistance to oxidation, TaB₂ is used in aerospace applications such as rocket nozzles, missile components, and spacecraft thermal protection systems. It helps protect components from the extreme heat generated during high-speed flight or re-entry into the Earth’s atmosphere.
Armor-Piercing Ammunition: Tantalum diboride’s hardness and density make it suitable for use in armor-piercing projectiles and penetrators, where it helps to penetrate tough armor materials and increase the effectiveness of the ammunition.
High-Temperature Applications:
Refractory Materials: Tantalum diboride’s exceptional high-temperature stability makes it an ideal material for use in refractory linings, furnaces, and high-temperature reactors. It can withstand temperatures in excess of 3,000°C, providing durability and stability in environments where other materials would fail.
Heat Shields: TaB₂ is used in heat shields for aerospace and nuclear applications, as it provides thermal insulation and heat resistance in extreme conditions.
Electrical and Electronic Components:
Conductive Ceramics: Unlike many ceramics, tantalum diboride exhibits some degree of electrical conductivity, making it useful in certain electrical and electronic applications where both the thermal and electrical conductivity are important. It is used in applications such as electrodes and contacts in high-temperature or harsh environments.
Semiconductor Devices: Tantalum diboride is sometimes used in high-power semiconductor devices due to its high thermal conductivity and stability at elevated temperatures, improving the reliability of these devices in demanding applications.
Chemical Processing:
Corrosion-Resistant Equipment: TaB₂’s corrosion resistance makes it an ideal material for components used in chemical processing industries. It is used in the construction of reactors, valves, pumps, and piping systems that are exposed to harsh corrosive chemicals and high temperatures.
Electrochemical Applications: Tantalum diboride is also used in electrochemical cells where its chemical inertness is required for durability in aggressive chemical environments.