Ti2VAlC2 MAX Phase Powder
Ti2VAlC2 MAX Phase Powder
Ti2VAlC2 MAX Phase Powder |
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Product No. | NRE-58030 |
CAS No. | NA |
Formula | Ti2VAlC2 |
Molecular Weight | NA |
APS | < 40 μm |
Purity | 99.9% |
Form | Powder |
Ti2VAlC2 MAX Phase Powder
Titanium vanadium aluminum carbide Ti2VAlC2 is a member of the MAX phase family, known for its unique combination of metallic and ceramic properties. Ti₂VC₂, as a MAX phase material, exhibits high thermal and electrical conductivity, mechanical strength, and thermal stability. Here’s how Ti₂VC₂ MAX phase powder can be utilized in various applications:
High-Temperature Structural Materials
Application: High-temperature coatings and structural components.
Role: Ti2VAlC2 high melting point and thermal stability make it suitable for creating coatings or structural components that can withstand extreme temperatures. This makes it ideal for use in aerospace, automotive, and industrial applications where materials are exposed to significant thermal stress and require high performance.
Wear-Resistant Coatings
Application: Protective coatings for cutting tools, machine parts, and other components subject to wear.
Role: Due to its hardness and resistance to abrasion Ti2VAlC2 is used in wear-resistant coatings for cutting tools and machinery. These coatings enhance the durability and extend the lifespan of tools and components that face high wear and tear.
Thermal Barrier Coatings
Application: Thermal barrier coatings for turbines, engines, and other high-temperature systems.
Role: Ti2VAlC2 thermal insulating properties are valuable in thermal barrier coatings. These coatings protect underlying materials from extreme heat and thermal damage, making them suitable for high-temperature applications like gas turbines and jet engines.
Electrical Contacts and Conductive Components
Application: Electrical contacts, conductive coatings, and electrodes.
Role: Ti2VAlC2 exhibits good electrical conductivity, making it useful for applications requiring efficient electrical contacts and conductive components. It is used in environments where maintaining reliable electrical performance while withstanding high temperatures and corrosive conditions is crucial.
Catalysis
Application: Catalysts and catalyst supports for chemical reactions.
Role: Ti2VAlC2 can be employed as a catalyst or a support material in catalytic processes. Its properties can enhance the efficiency and stability of catalytic reactions, particularly in high-temperature environments.
Composite Materials
Application: Advanced composites and reinforced materials.
Role: Incorporating Ti2VAlC2 into composite materials can improve their mechanical properties, thermal stability, and resistance to wear and corrosion. This application leverages the material’s unique properties to create advanced composites for specialized uses.
Nuclear Applications
Application: Nuclear reactor components and radiation shielding.
Role: The high thermal conductivity and stability of Ti2VAlC2 make it a candidate for nuclear reactor components and radiation shielding applications. It can be used in environments where high thermal conductivity and resistance to radiation are required.