CVD TaC coating cover provided by VeTek Semiconductor is a highly specialized component designed specifically for demanding applications. With its advanced features and exceptional performance, our CVD TaC coating cover offers several key advantages.Our CVD TaC coating cover provides the necessary protection and performance required for success.We looking forward to exploring potential cooperation with you!
VeTek Semiconductor's CVD TaC coating cover finds extensive usage in a wide range of industries. It serves as a critical component in processes requiring high-temperature resistance and chemical inertness. The CVD TaC coating cover provides outstanding high-temperature resistance and chemical inertness, making it highly suitable for environments with elevated temperatures and corrosive conditions like Aixtron MOCVD system or LPE systems. Its superior thermal stability ensures reliable performance and extended service life, minimizing the need for frequent replacements and reducing downtime.
The TaC coating applied to the cover exhibits excellent thermal conductivity, enabling efficient heat transfer and temperature uniformity. This feature is crucial for controlling temperature distribution and minimizing thermal stress during various processes. The result is enhanced performance, reduced hotspots, and improved overall reliability.
Furthermore, the CVD TaC coating cover demonstrates exceptional resistance to chemical corrosion, ensuring long-term durability in harsh chemical environments. Its chemically inert nature protects the underlying components from degradation, maintaining their integrity and extending their lifespan.
Rely on VeTek Semiconductor's CVD TaC coating cover to meet your specialized needs and exceed your expectations. With our commitment to delivering high-quality products, we strive to be your long-term partner in providing advanced solutions for your industry.
Besides CVD TaC coating cover,we also supply collector, cover segment, ceiling, satellite and so on.
Physical properties of TaC coating | |
Density | 14.3 (g/cm³) |
Specific emissivity | 0.3 |
Thermal expansion coefficient | 6.3 10-6/K |
Hardness (HK) | 2000 HK |
Resistance | 1×10-5 Ohm*cm |
Thermal stability | <2500℃ |
Graphite size changes | -10~-20um |
Coating thickness | ≥20um typical value (35um±10um) |