Tantalum Aluminum Carbide MAX Phase Powder
Tantalum Aluminum Carbide MAX Phase Powder
Tantalum Aluminum Carbide MAX Phase Powder |
|
Product No. | NRE-58012 |
CAS No. | NA |
Formula | Ta2AlC |
Molecular Weight | 400.88 g/mol |
APS | < 40 μm |
Purity | 99.9% |
Form | Powder |
Certificate of Analysis |
|
Ta | 90.3% |
Al | 6.7% |
C | 2.9% |
O | 0.03% |
B | 0.02% |
Sn | 0.01% |
Fe | 0.03% |
Tantalum Aluminum Carbide MAX Phase Powder
Tantalum aluminum carbide (Ta₂AlC) is a member of the MAX phase family, which combines properties of both metals and ceramics, resulting in materials with a unique set of characteristics. Ta₂AlC MAX phase powder has several specialized applications due to its high thermal and electrical conductivity, mechanical strength, and thermal stability.
High-Temperature Structural Materials
Application: High-temperature coatings and structural components.
Role: Ta₂AlC is valued for its high melting point and exceptional thermal stability. It is used in creating coatings or structural components that can endure extreme temperatures. This makes it suitable for applications in aerospace, power generation, and other industrial settings where materials face high thermal stress.
Wear-Resistant Coatings
Application: Protective coatings for cutting tools, machine parts, and other high-wear components.
Role: The hardness and resistance to abrasion of Ta₂AlC make it ideal for protective coatings on cutting tools and machinery. These coatings enhance the durability and extend the lifespan of components subjected to significant wear and harsh conditions.
Thermal Barrier Coatings
Application: Thermal barrier coatings for turbines, engines, and other high-temperature systems.
Role: Ta₂AlC excellent thermal insulating properties are utilized in thermal barrier coatings. These coatings protect underlying materials from extreme temperatures and thermal damage, improving the performance and longevity of components in applications like gas turbines and jet engines.
Electrical Contacts and Conductive Components
Application: Electrical contacts, conductive coatings, and electrodes.
Role: With good electrical conductivity, Ta₂AlC is used in applications that require efficient electrical contacts and conductive components. It helps maintain reliable electrical performance while withstanding high temperatures and corrosive environments.
Catalysis
Application: Catalysts and catalyst supports for chemical reactions.
Role: Ta₂AlC can be used as a catalyst or a support material in various catalytic processes. Its properties can enhance the efficiency and stability of catalytic reactions, especially in high-temperature environments.
Composite Materials
Application: Advanced composites and reinforced materials.
Role: Ta₂AlC powder can be incorporated into composite materials to improve their mechanical properties, thermal stability, and resistance to wear and corrosion. This results in advanced composites with enhanced performance for specialized applications.
Nuclear Applications
Application: Nuclear reactor components.
Role: The high thermal conductivity and stability of Ta₂AlC make it a candidate for use in nuclear reactors. It can be employed in environments where high thermal conductivity and resistance to radiation damage are necessary.