In the realms of high-temperature materials and advanced ceramic fabrication, breakthroughs often stem from innovations in precursors. We are proud to introduce Organic Polysilazane IOTA 9108 – not merely a high-performance polymer, but a key that unlocks the direct transformation from polymer to high-performance ceramics. Known as a "Ceramizable Precursor Polymer," IOTA 9108 is redefining the boundaries of high-temperature protection, precision molding, and advanced composite manufacturing with its outstanding properties.

IOTA 9108 is a liquid precursor polymer composed of repeating Si-N units. This unique molecular structure grants it an unparalleled dual identity: it functions both as an excellent thermosetting resin and as a highly efficient ceramic precursor. The product boasts a notably low viscosity, ensuring superior leveling, wettability, and processing ease. Whether for dip-coating, spraying, or impregnation, it facilitates uniform coverage effortlessly. Its short curing time and compatibility with various curing methods, including thermal and UV, offer tremendous flexibility and efficiency for your production processes.

Yet, the true brilliance of IOTA 9108 lies in its remarkable transformation capability. It can undergo pyrolysis and conversion into ceramics under relatively mild conditions, with a high ceramic yield that minimizes material shrinkage and defects. It facilitates the preparation of high-performance SiCN (silicon carbonitride) ceramics with ease. The resulting ceramic material demonstrates excellent adhesion to various substrates such as metals, ceramics, and graphite, and can withstand extreme temperatures up to 1500°C, exhibiting outstanding high-temperature stability, oxidation resistance, and mechanical properties.

From high-temperature coatings for advanced engine components and corrosion-resistant parts in the semiconductor industry to ceramic matrix composites (CMCs) and high-temperature adhesives in aerospace, IOTA 9108 provides a straightforward, efficient, and reliable solution for transitioning from organic to inorganic, from liquid to solid ceramic. It simplifies the complex processes of traditional ceramic manufacturing and reduces forming and processing challenges, making it the ideal choice for fabricating complex-shaped, high-performance ceramic components and coatings.

Choosing Organic Polysilazane IOTA 9108 is more than selecting a material; it is embracing a future-oriented philosophy of material preparation – a perfect fusion of the easy processability of polymers with the ultimate performance of ceramics. Let's collaborate and harness the innovative power of IOTA 9108 to imbue your products with the capability to withstand extreme environments, jointly exploring the limitless possibilities in high-temperature material applications.

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