In modern industries where high temperatures and extreme working conditions are prevalent, the functionality of coating materials is evolving from mere decoration to integrated performance challenges encompassing heat resistance, fireproofing, weather resistance, and easy cleaning. Whether for the exterior surfaces of aerospace vehicles, the inner walls of industrial furnaces, electronic device encapsulation, or  equipment coatings, there is an urgent need for advanced materials that can withstand high temperatures, adapt to complex substrates, ensure safety and reliability, and facilitate easy application. IOTA 9118 Organopolysilazane, with its design centered on "ceramicizable precursor" technology, leverages the synergistic effects of vinyl functional groups and silicon-nitrogen structures to bring a technological revolution to high-temperature coating systems, opening a new chapter in the transformation of surface protection toward multifunctionality and intelligence.

As a liquid polysilazane, IOTA 9118’s low viscosity and  adhesion enable it to easily adapt to various application methods, including spraying, brushing, dipping, and coating. It is widely suitable for metals, alloys, glass, various plastics (such as PP, PC, PVC, PMMA), and other composite material surfaces, providing unprecedented convenience for multi-material coating applications. During the curing process, the material achieves cross-linking through multiple methods, forming a stable coating. Once cured, it exhibits non-flammability, significantly enhancing its suitability for scenarios with stringent fire safety requirements.

In terms of performance, IOTA 9118 not only demonstrates  high-temperature resistance but also offers oxidation resistance, corrosion resistance, and easy-cleaning properties. Its low surface tension design prevents contaminants from adhering, maintaining surface cleanliness even in harsh environments and substantially reducing cleaning and maintenance costs. Particularly noteworthy is that IOTA 9118 can gradually transform into a ceramic structure under high-temperature conditions, enabling self-enhancement of the coating under extreme temperatures, effectively extending its service life and protecting substrates from thermal and chemical damage.

As attention to environmental protection, safety, and efficiency in new materials continues to grow, IOTA 9118 has been successfully applied in various fields, including high-temperature coatings,  adhesives, non-flammable composite materials, and optical glass treatment. It is increasingly becoming a key driver in advancing industrial surface engineering toward high performance and reliability.

Choosing IOTA 9118 is not just selecting a coating material but embracing a future-oriented "intelligent protection" strategy—it ensures surfaces remain stable under the tests of high temperatures and time, using the power of technology to  every challenge.
Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.