Semicorex SiC Ceramic Heat Transfer Plates, based on SiC as the primary material, undergo high-temperature sintering at 2250°C, resulting in a highly vitrified, zero-porosity dense ceramic body with an SiC content of ≥99.3%. Exhibiting a bending strength of ≥410MPa and a thermal conductivity of 140W/m.k, these ceramics are the only materials capable of withstanding corrosion from strong acids such as hydrofluoric acid (HF) and sulfuric acid (H2SO4) in the semiconductor industry. We at Semicorex are dedicated to manufacturing and supplying high-performance SiC Ceramic Heat Transfer Plates that fuse quality with cost-efficiency. **
Semicorex SiC Ceramic Heat Transfer Plates exhibit a small thermal expansion coefficient comparable to silicon, ensuring compatibility with silicon-based components and minimizing thermal stress during operation. With a thermal conductivity of 140W/m.k, the SiC Ceramic Heat Transfer Plates efficiently transfer heat, making them suitable for high-temperature applications where rapid and effective heat dissipation is essential.
Furthermore, the SiC Ceramic Heat Transfer Plates possess superior thermal conductivity and high-temperature resistance, enabling them to withstand elevated temperatures and rapidly dissipate heat in demanding thermal environments.
The high bending strength of ≥410MPa ensures the structural integrity and reliability of the SiC Ceramic Heat Transfer Plates, making them suitable for load-bearing applications in various industrial processes.
Besides, they exhibit exceptional wear resistance, with hardness levels surpassed only by diamond, ensuring prolonged service life and durability in abrasive environments.
Last but not least, the corrosion resistance of the SiC Ceramic Heat Transfer Plates heat transfer plates allows them to withstand exposure to strong acids, making them suitable for applications in aggressive chemical environments. And featuring a high silicon carbide content, these SiC Ceramic Heat Transfer Plates offer superior material purity and performance consistency, meeting the stringent requirements of various industrial applications.