Multi-Layer Accordion-Shaped Titanium Carbide MAX Phase Micron Powder (Ti₃C₂Tx, ~400 Mesh, Purity: 98+%) is a high-performance material from the MAX phase family, known for its unique accordion-shaped, multi-layered structure. With a particle size of ~400 mesh and 98+% purity, this powder exhibits exceptional mechanical properties, electrical conductivity, thermal stability, and excellent resistance to oxidation. It is ideal for advanced applications in electronics, energy systems, aerospace, and manufacturing.
1. Key Properties
High Purity (98+%) Ensures minimal impurities, providing reliable and consistent performance in critical applications.
Accordion-Shaped Multi-Layer Structure The unique layered structure of Ti₃C₂Tx enhances its mechanical properties, flexibility, and conductivity, making it ideal for a wide range of industrial and electronic applications.
Excellent Electrical Conductivity Provides high electrical conductivity, making it suitable for use in energy storage devices, conductive coatings, and electronic applications.
Thermal Stability Retains mechanical properties and stability at elevated temperatures, ensuring performance in extreme heat environments.
Oxidation Resistance Exhibits excellent resistance to oxidation, enhancing its durability and lifespan in high-temperature and harsh environments.
Particle Size (~400 Mesh) Fine particle size ensures uniform dispersion, beneficial for composite materials, coatings, and additive manufacturing.
2. Applications
Energy Storage Used in supercapacitors, batteries, and energy storage devices for its high electrical conductivity and stability.
Aerospace Engineering Applied in high-performance aerospace components requiring excellent thermal stability, mechanical strength, and resistance to oxidation.
Electronics Incorporated in the development of conductive coatings, sensors, and electronic devices requiring high conductivity and durability.
Catalysis Used in catalytic applications for its high surface area and conductivity, enhancing reaction efficiency.
Additive Manufacturing Ideal for 3D printing of custom-engineered, high-performance parts, particularly in energy and aerospace industries.
Coatings Applied in coatings for high-wear environments, providing enhanced resistance to thermal shock, wear, and oxidation.
3. Advantages
Superior Conductivity Ti₃C₂Tx offers excellent electrical conductivity, ideal for energy storage and electronic applications.
High Mechanical Strength The multi-layer accordion structure contributes to its high strength, flexibility, and durability in demanding conditions.
Thermal and Chemical Stability Performs reliably under high temperatures and in chemically aggressive environments, ensuring long-term performance.
Fine Particle Size Ensures uniform integration in advanced manufacturing processes, including coatings, composites, and additive manufacturing.
High Purity Guarantees superior material consistency and quality, essential for high-performance and critical applications.
4. Recent Trends and Research
Energy Storage Innovations Research is focusing on optimizing Ti₃C₂Tx for use in supercapacitors, lithium-ion batteries, and other high-efficiency energy storage devices.
Aerospace Advancements Studies explore Ti₃C₂Tx’s potential in aerospace applications, including thermal protection systems, conductive coatings, and lightweight structural components.
Catalytic Applications Ongoing research into Ti₃C₂Tx for use in catalysts and catalytic supports for enhanced reaction efficiency.
Electronics Development Research into Ti₃C₂Tx’s role in conductive coatings and advanced electronics continues to expand, particularly in flexible electronics.
Additive Manufacturing The material’s use in 3D printing is growing, allowing for the creation of complex, high-performance parts for a variety of industries.
5. Future Prospects
Energy Systems Ti₃C₂Tx will continue to play a key role in the development of advanced energy storage solutions, including supercapacitors and batteries, for a wide range of applications.
Aerospace and Automotive Its unique properties will enable the development of high-performance aerospace and automotive components, particularly for applications requiring high strength, conductivity, and thermal stability.
Electronics and Sensors Ti₃C₂Tx’s electrical conductivity and stability will drive its use in next-generation electronic devices, sensors, and flexible electronics.
Sustainable Manufacturing The material’s versatility and performance in eco-friendly manufacturing processes will contribute to the development of sustainable technologies and products.
Advanced Coatings The use of Ti₃C₂Tx in coatings will grow, offering enhanced protection for components in high-temperature, high-wear, and corrosive environments.
With its ~400 mesh particle size, 98+% purity, and exceptional electrical, thermal, and mechanical properties, Multi-Layer Accordion-Shaped Titanium Carbide MAX Phase Micron Powder (Ti₃C₂Tx) is a critical material for a wide range of advanced applications in energy, aerospace, electronics, and manufacturing. Its unique properties and versatility ensure its continued importance in modern materials science and technology.
