INNOVACERA | technical ceramic solutions

Ceramics possess the properties of heat resistance, insulation, wear resistance and corrosion resistance. They are suitable for use in high-temperature, vacuum and corrosive environments and are widely applied in semiconductors, optoelectronics and various industrial equipment. However, they cannot independently perform load-bearing, conductive and sealing operations and need to be assembled with metals.   The difference in thermal expansion coefficients between the two is significant. After welding, stress cracking, interface separation and weak bonding force problems are prone to occur. To achieve a stable connection, it is necessary to select appropriate metal materials reasonably, along with compatible metalization treatment and welding processes. This article, based on actual application scenarios, sorts out material selection, welding processes and implementation suggestions to help optimize product design.     I. Thermal expansion-matching metals: The best choice ...

With the prevalence of smart homes, smart toilets have already become an integral part of daily comfortable living. Their functions such as flushing, drying, seat heating and nozzle sterilization, are all achieved through ceramic heating elements. Compared to traditional electric heating wires, this element is hidden within the body of the toilet, offering significant advantages in enhancing the user experience, ensuring safety and prolonging the product’s lifespan.  I. Why choose ceramic as the heating material?   Ceramic can withstand high temperatures, is corrosion-resistant, and has excellent insulation properties, ensuring high safety when used in electrical environments. This allows ceramic components to be safely embedded in the seat ring, waterways, and even air drying systems. Especially PTC (Positive Temperature Coefficient) ceramic materials, which can automatically increase resistance when the temperature rises to a certain threshold, achieving self-limiting temper...