Molybdenum Titanium Aluminum Carbide MAX Phase Powder Description
Molybdenum Titanium Aluminum Carbide MAX Phase Powder (Mo₂Ti₂AlC₃) is a metal-ceramic composite with outstanding properties like high thermal conductivity, better wear resistance, and outstanding oxidation resistance at elevated temperatures. The MAX phase materials have the best properties of ceramics and metals, with high strength, good machinability, and thermal stability. The material can be used for application in high-performance applications in aerospace, energy, and electronic industries.
The Molybdenum Titanium Aluminum Carbide MAX Phase Powder is widely used in situations where wear resistance and high-temperature environments are of utmost importance. Its superior oxidation resistance makes it a prime candidate for high-end coatings and thermal protection systems.
Performance Advantages:
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Mechanical Properties: High hardness and machinability (weak interlayer bonding enables mechanical exfoliation).
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Thermal Stability: High-temperature resistance (>1000°C) and thermal shock resistance.
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Functional Properties: Excellent electrical/thermal conductivity and radiation damage resistance.
Molybdenum Titanium Aluminum Carbide MAX Phase Powder Applications
- Aerospace: Utilized in thermal protection systems and high-performance components that are subjected to harsh temperatures.
- Energy: Suitable for application in high-temperature conditions like power plants and energy generation systems.
- Electronics: Utilized in electronic components that require high thermal conductance and durability against wear.
- Coatings: Applied as a protective coating for parts subject to severe wear and oxidation.
Molybdenum Titanium Aluminum Carbide MAX Phase Powder Packing
The Molybdenum Titanium Aluminum Carbide MAX Phase Powder is carefully packaged to maintain the integrity and quality of the material.
Vacuum-sealed packaging: 50/100/500/1kg per bag, 25kg per drum.
Related Information: MAX Phase Compounds
MAX phase compounds are a class of ternary layered ceramic materials with the general formula Mₙ₊₁AXₙ (M: transition metal; A: main group element; X: carbon/nitrogen). Their unique structure consists of alternately stacked rigid M-X layers and weakly bonded A-atom layers, forming a hexagonal crystal lattice. This microscopic design enables them to simultaneously exhibit the toughness of metals and the high-temperature resistance of ceramics, overcoming the brittleness limitations of traditional ceramics. The properties of MAX phases can be precisely tailored by adjusting the M/A/X elemental combinations (e.g., Mo₂TiAlC₂).
Frequently Asked Questions
What are MAX Phase materials?
MAX Phase materials are a class of layered ceramic-metal composites that combine the best properties of metals and ceramics, possessing high strength, easy machinability, and high-temperature stability.
What are the main benefits of Molybdenum Titanium Aluminum Carbide MAX Phase Powder?
Molybdenum Titanium Aluminum Carbide MAX Phase Powder has outstanding thermal stability, wear resistance, and oxidation resistance, making it ideal for high-temperature and high-wear environments.
Where are MAX Phase materials used?
MAX Phase materials have applications in aerospace, energy, electronics, and coating sectors, where high-performance material is required in extreme conditions.
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