Aerospace industry
Engine components: High temperature components inside aircraft engines, such as turbine blades, combustion chambers, etc., work in extremely harsh environments, facing situations such as high temperature, high pressure, high-speed airflow erosion, and gas corrosion. Ceramic coatings have excellent high temperature resistance, corrosion resistance, and high hardness characteristics, which can effectively protect these components, improve their durability under extreme working conditions, ensure engine performance and safety, extend component service life, and reduce maintenance and replacement frequency.
External surface of aircraft: During high-speed flight, the external surface of the aircraft is affected by airflow friction, dust impact, and radiation in the space environment. Ceramic coatings can enhance the wear resistance, thermal insulation, and corrosion resistance of the outer surface, and some ceramic coatings also have certain stealth performance, which helps to meet the functional requirements of aircraft in different flight missions.
Automotive manufacturing industry
Engine related: The exhaust pipe, piston, cylinder liner and other parts of the engine are exposed to high temperature, high pressure and mechanical friction for a long time. Ceramic coatings can withstand high temperatures, effectively resist the erosion of high-temperature exhaust gases, reduce wear between components, thereby improving overall engine performance, reducing fuel consumption, and extending the service life of key engine components. This is of great significance for improving the reliability and durability of automobiles.
Braking system: After applying ceramic coating to the brake disc, it can maintain stable braking performance even in high temperature environments caused by frequent braking due to its high hardness and good high-temperature resistance. This reduces the wear and thermal degradation of the brake disc, improves the safety and reliability of braking, extends the service life of the brake disc, and reduces the frequency of replacement.
Mechanical manufacturing industry
In the field of cutting tools: Ceramic coated cutting tools have obvious advantages in cutting, especially for some high hardness metal materials (such as quenched steel, titanium alloys, etc.). The high hardness of ceramic coating can keep the cutting edge of the tool in good condition, improve cutting efficiency, and its high temperature resistance and wear resistance can help extend the service life of the tool, reduce tool wear costs, and improve machining accuracy.
High temperature wear-resistant components: such as rollers and continuous casting crystallizers in the metallurgical industry, as well as crusher hammers and grinding discs in the cement industry, work in high temperature environments and suffer from severe wear. The high temperature resistance, high hardness, and wear resistance properties of ceramic coatings enable them to effectively protect these components, improve their work efficiency, and reduce equipment failures and maintenance costs caused by wear and tear.
Electronic and electrical industry
Electronic component protection: For some electronic components that work in high-temperature environments, such as power semiconductor devices, high-temperature sensors, etc., ceramic coatings can provide insulation, protection, and insulation to prevent damage caused by overheating, corrosion, and other factors, ensuring the normal operation and service life of electronic equipment.
Microwave ovens and other kitchen utensils: The internal cavity, baking tray, and other parts of the microwave oven are coated with ceramic, which utilizes its high temperature resistance, easy cleaning, and good chemical stability to facilitate user use, extend the service life of kitchen utensils, and improve product quality and user experience.
Medical device industry
Implantable devices: such as artificial joints, dental implants, etc., ceramic coatings have good biocompatibility, resistance to human body fluid corrosion, and appropriate hardness. They can have good contact with human tissues, reduce stimulation and rejection reactions to the human body, and withstand the pressure and friction generated by daily human activities, ensuring the long-term stable function of implanted devices in the human body and improving the quality of life of patients.
Surgical instruments: Surgical instruments need to be disinfected frequently, and collision damage and corrosion between instruments should be avoided during use. The wear resistance, corrosion resistance, and high-temperature disinfection resistance of ceramic coatings make them suitable for application on the surface of surgical instruments, helping to maintain the performance and appearance of the instruments and extend their service life.
Energy industry
Thermal power generation: Components such as boiler pipes and turbine blades in thermal power generation units face problems such as high temperature, corrosion, and steam erosion. Ceramic coatings can enhance the corrosion resistance and high temperature resistance of these components, improve their service life, ensure the stable operation of power generation equipment, and reduce downtime and costs caused by equipment failures.
In the field of new energy, for example, in solar thermal power generation systems, components such as collector tubes need to withstand high temperatures and be corrosion-resistant. Ceramic coatings can meet these requirements, improve the performance and service life of components, and ensure the efficient and stable operation of new energy systems.

Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K. 
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.