Ti3AlC2
Aluminum titanium carbide is a new ceramic material with ternary layered structure, which has unique properties, It has received extensive attention from material scientists and physicists. Aluminum titanium carbide (Ti3AIC2) belongs to hexagonal crystal system and has the characteristics of metals and ceramics: it has the same conductivity and thermal conductivity as metals, but also has high elastic modulus and excellent high-temperature mechanical properties similar to ceramics. It has good conductivity, thermal conductivity and high elastic modulus.And low Vickers hardness, good resistance to damage; Able to perform cutting at room temperature and plastic deformation at high temperature; It also has good high-temperature stability and oxidation resistance. At the same time, it also has good thermal vibration resistance, damage resistance and excellent chemical corrosion resistance.
MAX phase ceramics (including Ti3SiC2, Ti3AIC2, etc.) are a new type of machinable materials that attract much attention Conductive ceramic materials.
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Product name |
Ti3AlC2 |
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Appearance |
Dark gray |
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Particle size |
100mesh 200mesh 300mesh 0-60um |
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Electrical conductivity |
3.1*10sm |
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Molecular Weight |
194.6 |
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purity |
99%min |
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Application |
With high strength and elastic modulus, high thermal conductivity and electrical conductivity, good machinability |
Ti3SiC2 powder is used as MAX special ceramic materials, electronic materials, high-temperature structural materials, electrode brush materials, chemical anti-corrosion materials and high-temperature heating materials.
Titanium silicon carbide has many advantages of both metal and ceramics. Like metal, it is a good conductor of electricity and heat. It is easy to process, soft, insensitive to thermal shock, and exhibits plasticity at high temperatures. It is also resistant to oxidation and high temperature like ceramics. The high-temperature strength exceeds all high-temperature alloys.
As a high-temperature material, Ti3SiC2 has an electrical conductivity twice that of graphite. It is wear-resistant and has obvious advantages as a brush for transitional AC motors. Its high-temperature strength, oxidation resistance, and thermal shock resistance can reach SiN. It is possible that metal smelted electrode materials can be used due to their good thermal shock resistance and high electrical conductivity. In summary, titanium silicon carbide is a high-temperature material with important research value and application prospects.