Ti4AlN3 MAX Phase Powder
Ti4AlN3 MAX Phase Powder
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Ti4AlN3 MAX Phase Powder is a titanium-aluminum nitride material with excellent conductivity, mechanical strength, and oxidation resistance. Its layered structure ensures durability in extreme environments and easy processing. As a leading supplier and manufacturer of premium MAX Phase Powder products, Shanghai Yuepeng can supply high-quality Ti4AlN3 MAX Phase Powder with various specifications and competitive prices, offering customized solutions to meet specific requirements.
Ti4AlN3 MAX Phase Powder Data Sheet
| Purity: | ≥98% |
| Size : | 200~500 mesh or customized |
Ti4AlN3 MAX Phase Powder Description
Ti4AlN3 MAX Phase Powder is a layered ternary nitride that combines metallic properties such as high electrical and thermal conductivity with ceramic advantages, including hardness, oxidation resistance, and thermal stability. Its hexagonal layered structure provides excellent damage tolerance, machinability, and thermal shock resistance, making it more adaptable than traditional ceramics. Compared with carbide-based MAX phases, Ti4AlN3 MAX Phase Powder offers improved resistance to oxidation and thermal degradation, which is critical for use in harsh environments. This material is particularly suitable for aerospace components, protective coatings, high-temperature electronics, and advanced structural applications.
Ti4AlN3 MAX Phase Powder Features
- Layered MAX Phase Structure: Exhibits a hexagonal layered structure combining metallic conductivity with ceramic-level hardness.
- High Thermal Stability: Maintains performance and structural integrity at elevated temperatures, suitable for extreme conditions.
- Oxidation Resistance: Nitride-based composition provides stronger resistance to oxidation compared with carbide MAX phases.
- Mechanical Strength and Toughness: Offers excellent toughness, damage tolerance, and durability under stress.
- Good Machinability: Easier to process and shape than conventional ceramics, enabling flexible applications in industry and research.
Ti4AlN3 MAX Phase Powder Applications
- High-Temperature Structural Components: Ti4AlN3 MAX phase powder offers excellent mechanical strength and thermal stability, making it suitable for aerospace, turbine, and industrial furnace parts exposed to extreme heat.
- Protective and Wear-Resistant Coatings: Its high oxidation and corrosion resistance allow it to be used as a protective coating on metals and ceramics, enhancing durability in harsh environments.
- Electrical and Thermal Conductive Materials: Ti4AlN3 exhibits good metallic conductivity and thermal transfer, making it ideal for electronic substrates, heat management systems, and conductive coatings.
- Energy Storage and Conversion Devices: The layered MAX phase structure facilitates efficient ion transport, enabling its use in electrodes for lithium-ion batteries, supercapacitors, and other energy storage technologies.
- Advanced Material Research: Ti4AlN3 MAX phase powder is utilized in research for developing high-performance layered materials, MXenes, and multifunctional composites with combined metallic and ceramic properties.
Electrical and Thermal Conductive Parts
High-Temperature Structural Materials
Protective Coatings
Refractory and Composite Materials
Research and Development of Novel Materials
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