TiVNbMoAlC3 MAX Phase Powder

TiVNbMoAlC3 MAX Phase Powder Data Sheet

Purity:	≥99%
Size :	200~500 mesh or customized

TiVNbMoAlC3 MAX Phase Powder Description

TiVNbMoAlC3 MAX Phase Powder is a quaternary layered carbide combining titanium, vanadium, chromium, molybdenum, aluminum, and carbon into a stable hexagonal MAX phase structure. This advanced material integrates metallic conductivity with ceramic-like properties, providing high thermal stability, mechanical strength, and oxidation resistance. The multi-transition metal composition enhances corrosion resistance and toughness, making it suitable for high-temperature structural components, protective coatings, and functional materials. TiVCrMoAlC3’s layered structure also allows for MXene derivation, expanding its applications in energy storage, catalysis, and advanced electronic devices. Its multifunctional characteristics make it ideal for research and industrial applications where durability and conductivity are required.

TiVNbMoAlC3 MAX Phase Powder Features

• Layered Hexagonal Structure: Exhibits a stable hexagonal layered crystal typical of MAX phases, combining metallic and ceramic attributes.
• High Thermal and Oxidation Resistance: Maintains performance under extreme temperature and oxidative conditions.
• Enhanced Mechanical Strength: Multi-transition metal composition improves toughness and damage tolerance.
• Electrical and Thermal Conductivity: Provides reliable conductivity for energy storage and electronic applications.
• MXene Precursor Potential: Can be used to produce TiVCrMoC-based MXenes for catalysis, batteries, and advanced devices.

TiVNbMoAlC3 MAX Phase Powder Applications

• High-Temperature Coatings: Protective coatings for aerospace, power generation, and industrial equipment.
• Structural Components: Ideal for high-temperature mechanical parts requiring strength and thermal stability.
• Energy Storage Systems: Precursor for MXenes used in batteries, supercapacitors, and electrochemical devices.
• Catalysis: Layered structure and transition metals provide catalytic activity for chemical processes.
• Electronic Devices: Supports conductive and thermally stable layers in advanced electronic and functional materials.

TiVNbMoAlC3 MAX Phase Powder Packaging

TiVNbMoAlC3 MAX Phase Powder is typically packaged in sealed, moisture-proof plastic bags, then placed in sturdy drum containers or fiber cartons to prevent contamination and ensure safe transport. Standard packaging sizes include 1 kg, 5 kg, and 10 kg options, with custom packaging available upon request to meet specific usage or storage needs.