Product Properties
Name:Titanium Silicide
Molecular formula:Ti5Si3
Appearance:grey black
CAS:12067-57-1
Titanium Silicide (Ti5Si3) Micronpowder Main Feature
Titanium Silicide has a high melting point, which enhances its suitability for use in high-temperature environments without degrading its structural integrity.It efficiently conducts heat, making it an ideal material for thermal management applications in electronics and aerospace industries.Despite its primary use in high-temperature applications, Titanium Silicide also exhibits good electrical conductivity, which is beneficial for its use in semiconductor devices and as contact materials.The material’s hardness and stability contribute to its wear resistance, making it suitable for use in abrasive environments where durability is essential.Besides its resistance to oxidation, Titanium Silicide shows considerable chemical stability, resisting corrosion from many industrial chemicals and environments.
Titanium Silicide (Ti5Si3) Micronpowder Applications
- Aerospace Components: Due to its high-temperature stability and oxidation resistance, Ti5Si3 is used in manufacturing components for aerospace engines, such as turbine blades and vanes, where materials must withstand extreme temperatures and corrosive environments.
- Gas Turbine Components: Similarly, in power generation, Ti5Si3 micronpowder is utilized in gas turbines for its ability to maintain structural integrity and performance at high temperatures.
- Cutting Tools and Wear Parts: The micronpowder is used to coat cutting tools, bearings, and other components that require high wear resistance and durability. The coating extends the life of these tools and parts, especially in environments where they are subjected to high temperatures and abrasive conditions.
- Heat Sinks and Spreaders: In electronics, the excellent thermal conductivity of Titanium Silicide makes it suitable for use in heat sinks and spreaders, enhancing the thermal management of high-power electronic devices and preventing overheating.
- Chemical Processing Equipment: Its chemical stability and resistance to high temperatures make Ti5Si3 a candidate for structural materials in chemical processing equipment, where corrosion resistance and durability are essential.