In the fields of high-temperature protection and advanced manufacturing, a core dilemma has long persisted: how to seamlessly integrate the ultimate performance of ceramics with the molding convenience of polymers? Traditional ceramic processing is  and costly, while conventional polymeric materials cannot withstand extreme thermal challenges. Today, we present the key to a breakthrough—IOTA 9108 Organopolysilazane (Ceramifiable Precursor Polymer). This is not merely a high-performance resin; it is an intelligent bridge connecting “liquid manufacturing” with “ceramic performance,” enabling you to harness the convenience of resin processing to achieve the excellence of SiCN ceramics. IOTA 9108 is a liquid precursor polymer composed of repeating Si-N units. Its unique molecular structure endows it with a “dual nature.” As a high-performance thermosetting resin, it exhibits  process friendliness: extremely low viscosity for easy impregnation and coating; short curing time with support for diverse curing methods, enabling rapid formation of solid materials with excellent green strength. Simultaneously, it possesses outstanding adhesion to heterogeneous materials like metals, ceramics, and graphite, making it an ideal matrix for manufacturing composites with complex structures. However, its truly revolutionary value lies in its “ceramic rebirth.” Under relatively mild pyrolysis conditions, IOTA 9108 can transform with a very high ceramic yield into SiCN (silicon carbonitride) ceramic capable of withstanding temperatures up to 1500°C. This characteristic perfectly combines the unparalleled molding freedom of polymer materials (such as impregnating complex preforms or 3D printing components) with the  performance of advanced ceramics—resistance to ultra-high temperatures, oxidation, and corrosion. It fundamentally solves the century-old industry challenge of “difficult-to-process ceramics.” From thermal protection systems for spacecraft and high-temperature component coatings for aero-engines, to heat treatment fixtures in semiconductors and fire barriers for new energy batteries, and further to corrosion-resistant seals for extreme environments, IOTA 9108 provides a complete and flexible solution from “molecular design” to “ultimate performance.” It transforms the dream of manufacturing complex ceramic components into an easily achievable resin-based process. Choosing IOTA 9108 is not merely selecting a material; it is embracing a future-oriented advanced manufacturing paradigm—a forward-looking pathway that integrates unlimited design freedom, significant cost advantages, and superior performance. Let us collaborate to crystallize infinite possibilities with liquid intelligence.
       Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
       High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.