In industrial manufacturing and high-end applications, the high-temperature resistance, corrosion resistance, and ease of cleaning of surface coatings are increasingly becoming critical factors affecting product performance. Traditional coatings either lack sufficient temperature resistance and are prone to aging, or involve complex application processes with limited applicability, making it difficult to simultaneously meet the integrated needs of high-temperature working conditions, diverse substrates, and long-lasting cleanliness. The introduction of IOTA 9118 Organopolysilazane provides a systematic solution to this challenge—it is not just a high-performance coating but also a precursor polymer with ceramicizable characteristics, truly achieving the functional fusion of "one material, multiple protections."

Based on a silicon-nitrogen structure and vinyl functional groups, IOTA 9118 is specifically optimized for high-temperature-resistant coating systems. Its low viscosity and strong adhesion enable it to be applied through various processes such as brushing, spraying, dipping, and coating, making it widely suitable for surfaces of metals, alloys, glass, paint films, and various plastics (PP, PC, PVC, PMMA, etc.), with adaptability far exceeding that of traditional coating materials. At the same time, through flexible curing methods, the coating can achieve rapid and stable cross-linked film formation in different environments, exhibiting safety and environmental characteristics such as non-flammability, oxidation resistance, and corrosion resistance after curing.

Particularly notable is IOTA 9118's potential for ceramicization under high-temperature conditions. This not only provides the application convenience of polymer coatings but also allows the coating to gradually transform into a ceramic structure under high-temperature working conditions, further enhancing its temperature resistance limits and mechanical strength. Meanwhile, its excellent surface performance imparts the coating outstanding easy-cleaning and anti-pollution capabilities, making it difficult for oil stains and dust to adhere. This makes it especially suitable for fields with high cleanliness requirements, such as industrial equipment, high-temperature furnaces, electronic encapsulation, and specialized building materials.

As "green manufacturing and efficient protection" become an industry consensus, IOTA 9118, with its intelligent material design, reliable performance, and broad application prospects, is becoming an ideal choice for high-temperature coatings, fire-resistant composite materials, industrial bonding, and surface engineering. It is not merely a coating material but also a technological driving force advancing toward intelligent and functional surface protection.

Choosing IOTA 9118 means selecting a smart coating system for your products that combines high-temperature tolerance, multi-substrate adhesion, safety and non-flammability, and ease of cleaning, providing continuous protection for product performance and appearance in harsh environments.

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