Titanium Tin Carbide MAX Phase Micron Powder (Ti₂SnC, 325 Mesh, Purity: 99+%) is a high-performance ceramic material belonging to the MAX phase family, known for its exceptional combination of metallic and ceramic properties. With a particle size of 325 mesh and 99+% purity, this powder offers superior mechanical strength, excellent thermal stability, oxidation resistance, and electrical conductivity. It is ideal for advanced applications in industries such as aerospace, energy, electronics, and high-performance manufacturing.
1. Key Properties
High Purity (99+%) Guarantees minimal impurities, providing reliable performance in critical applications.
MAX Phase Structure Combines the best characteristics of metals and ceramics, providing a balance of high toughness, strength, wear resistance, and electrical conductivity.
Thermal Stability Retains mechanical properties at elevated temperatures, ensuring stability in extreme heat environments.
Electrical Conductivity Exhibits good electrical conductivity, making it suitable for electrical components and devices.
Oxidation Resistance Resists oxidation at high temperatures, ensuring long-lasting durability in harsh environments.
Particle Size (325 Mesh) Fine particle size ensures uniform dispersion in coatings, composites, and additive manufacturing processes.
2. Applications
Aerospace Engineering Used in the development of high-performance components like turbine blades, engine parts, and heat shields due to its exceptional mechanical and thermal properties.
Electronics Incorporated in the production of electrical components such as capacitors, resistors, and thermal management devices that require both conductivity and durability.
Energy Systems Employed in high-temperature energy systems, such as fuel cells, batteries, and other renewable energy technologies.
Cutting Tools and Wear Parts Applied in the manufacturing of advanced cutting tools and wear-resistant components for industries requiring durability.
Additive Manufacturing Suitable for 3D printing, enabling the creation of custom-engineered, high-performance parts in various industries.
Coatings Used in coatings for high-temperature and high-wear applications, including machinery, tools, and electronics.
3. Advantages
Superior Mechanical Strength Offers high tensile strength, impact resistance, and wear resistance, ensuring long-lasting performance.
Thermal and Chemical Stability Performs reliably under extreme temperatures and chemically aggressive environments.
Electrical Conductivity Ideal for applications that require both high strength and electrical conductivity, such as in electronic devices and sensors.
Fine Particle Size Ensures uniform dispersion and integration into advanced manufacturing processes, including coatings and composite materials.
High Purity Guarantees superior material quality, ensuring reliability and consistency in sensitive applications.
4. Recent Trends and Research
Aerospace and Defense Research is focused on optimizing Ti₂SnC for high-performance aerospace applications, such as heat shields, turbine blades, and structural components.
Energy Storage and Conversion Studies are exploring Ti₂SnC’s role in high-temperature energy systems, including fuel cells, advanced batteries, and supercapacitors.
Electronics and Thermal Management Research explores Ti₂SnC in the development of high-performance electronic components that require both thermal stability and electrical conductivity.
Additive Manufacturing The use of Ti₂SnC in 3D printing is expanding, with research aimed at improving its application in creating complex, high-performance parts.
Advanced Coatings Investigations are exploring Ti₂SnC-based coatings for high-wear applications in cutting tools and machinery.
5. Future Prospects
Aerospace and Energy Systems Ti₂SnC will continue to play a key role in the development of high-performance materials for next-generation aerospace and energy technologies.
Advanced Manufacturing The demand for high-performance, custom-engineered parts will drive the use of Ti₂SnC in additive manufacturing and powder metallurgy.
Electronics and Sensors Ti₂SnC’s unique properties will drive its adoption in the development of advanced sensors, capacitors, and resistors in electronic devices.
Renewable Energy With the growing focus on green technologies, Ti₂SnC will support the development of energy-efficient components in renewable energy systems.
Sustainability Research into the sustainable production and recycling of Ti₂SnC will enhance its appeal in environmentally conscious manufacturing practices.
With its 325 mesh particle size, 99+% purity, and exceptional mechanical, thermal, and electrical properties, Titanium Tin Carbide MAX Phase Micron Powder (Ti₂SnC) is an essential material for high-performance applications in aerospace, energy, electronics, and advanced manufacturing. Its versatility, strength, and resistance to extreme conditions make it a key material in modern materials science and technology.
