Titanium Aluminum Carbide MAX Phase Micron Powder (Ti₂AlC, 325 Mesh, Purity: 99+%) is a high-performance ceramic material belonging to the MAX phase family, known for its unique combination of metallic and ceramic properties. With a 325 mesh particle size and a purity of 99+%, this powder exhibits excellent mechanical strength, thermal stability, electrical conductivity, and resistance to oxidation. It is commonly used in advanced manufacturing, aerospace, electronics, and energy applications that require materials capable of performing under extreme conditions.
1. Key Properties
High Purity (99+%) Guarantees minimal impurities, providing reliable performance for critical applications in advanced industries.
Unique MAX Phase Structure Combines the best features of both metals and ceramics, offering high toughness, strength, and wear resistance.
Thermal Stability Retains its properties at high temperatures, withstanding thermal cycling and thermal shock.
Electrical Conductivity Exhibits good electrical conductivity, making it suitable for use in electrical and electronic components.
Chemical Resistance Offers resistance to oxidation and corrosion, ensuring long-term durability in harsh environments.
Particle Size (325 Mesh) Fine particles ensure uniform dispersion, making it ideal for high-performance coatings, composites, and additive manufacturing.
2. Applications
Aerospace Used in advanced aerospace components such as turbine blades, exhaust systems, and thermal protection materials due to its high strength and heat resistance.
Electronics Incorporated into the production of components requiring a combination of conductivity and durability, such as capacitors, resistors, and electrical connectors.
Energy Systems Applied in high-temperature applications like heat exchangers, batteries, and fuel cells for enhanced performance.
Cutting Tools and Wear Parts Utilized in high-wear environments such as machining, tooling, and wear-resistant coatings for its excellent mechanical properties.
Coatings Used for hard coatings on metal surfaces to improve wear resistance, corrosion resistance, and thermal stability.
Additive Manufacturing Suitable for 3D printing high-performance, custom-engineered parts with exceptional durability and strength.
3. Advantages
Enhanced Mechanical Properties Offers a combination of high strength, toughness, and wear resistance, outperforming many traditional materials.
High Thermal Stability Performs reliably in extreme temperature environments, making it ideal for high-heat applications.
Electrical Conductivity Suitable for applications where both conductivity and mechanical strength are needed, such as in electrical contacts and connectors.
Chemical Durability Resists oxidation and corrosion, ensuring longevity in challenging chemical environments.
Uniform Dispersion Fine particle size ensures smooth processing and efficient integration into composites, coatings, and 3D printing processes.
4. Recent Trends and Research
Advanced Aerospace Materials Research into Ti₂AlC focuses on improving performance for next-generation aerospace materials, including turbine blades and high-performance heat shields.
Energy Storage and Conversion Investigations explore the potential of Ti₂AlC in energy storage systems, particularly in advanced battery technologies and fuel cells.
Coatings and Surface Protection Studies focus on enhancing the application of Ti₂AlC-based coatings to improve wear resistance, corrosion resistance, and high-temperature performance.
Additive Manufacturing The use of Ti₂AlC in 3D printing is growing, with research aimed at optimizing its application in producing complex, durable components.
Electronics Innovations Research explores the use of Ti₂AlC in electronic components such as capacitors, resistors, and thermal management devices.
5. Future Prospects
Aerospace and Defense As industries continue to push the limits of high-performance materials, Ti₂AlC’s unique properties will support the development of next-generation aerospace and defense technologies.
Energy Systems The material’s use in energy-efficient technologies will grow, particularly in applications requiring high thermal conductivity and chemical resistance.
Advanced Coatings Ti₂AlC’s role in hard coatings for various industries will continue to expand, especially in applications needing high wear and heat resistance.
Electronics and Electrical Devices With its combination of conductivity and strength, Ti₂AlC will play an increasing role in the production of advanced electronic components.
Sustainable Manufacturing The growing interest in sustainable and efficient manufacturing processes will enhance the role of Ti₂AlC in additive manufacturing and green technologies.
With its 325 mesh particle size, 99+% purity, and exceptional mechanical, thermal, and chemical properties, Titanium Aluminum Carbide MAX Phase Micron Powder (Ti₂AlC) is a key material for advanced industrial applications. Its versatility in aerospace, electronics, energy systems, and high-performance manufacturing makes it an essential material in modern materials science and engineering.
