In cutting-edge manufacturing where ultimate performance is pursued, a core dilemma persists: how to unify the exceptional performance of advanced ceramics with the free-form capabilities of polymeric materials? Traditional SiCN ceramic preparation is complex and energy-intensive, while ordinary polymers cannot withstand high-temperature challenges. Today, we present the key to a breakthrough: IOTA 9108 Organopolysilazane (Ceramifiable Precursor Polymer). This is more than a high-performance resin; it is an intelligent bridge connecting “liquid precision manufacturing” with the “extraordinary performance of 1500°C ceramics,” allowing you to harness the ultimate convenience of polymer processing to achieve the remarkable protection of silicon carbonitride (SiCN) ceramics.

The core secret of IOTA 9108 lies in its unique liquid precursor structure composed of repeating Si-N units. This design grants it unparalleled “dual nature.” As a high-performance thermosetting resin, it exhibits exceptional processing characteristics: extremely low viscosity for easy impregnation of complex molds or fiber preforms; short curing time supporting various curing methods like light and heat, enabling rapid formation of polymer parts with excellent green strength. Simultaneously, it possesses outstanding adhesion to heterogeneous materials such as metals, ceramics, and graphite, making it an ideal choice for preparing high-performance composite materials.

Its truly revolutionary value lies in its “silent transformation.” Under relatively mild pyrolysis conditions, IOTA 9108 can transform with a very high ceramic yield into SiCN ceramic capable of withstanding temperatures up to 1500°C. This means you can utilize all polymer molding technologies—such as injection molding, impregnation, and 3D printing—to freely manufacture components with extremely complex geometries. Subsequent controlled pyrolysis then easily yields final ceramic products with exceptional resistance to ultra-high temperatures, oxidation, and corrosion. It fundamentally redefines the traditional perception that “ceramics are difficult to process,” achieving the unity of “design freedom” and “performance pinnacle.”

From thermal protection systems for spacecraft and ultra-high temperature components for aero-engines, to heat treatment carriers in semiconductors and fire barriers for batteries in new energy, and further to corrosion-resistant coatings and seals for extremely corrosive environments, IOTA 9108 provides a complete, flexible, and cost-effective advanced manufacturing pathway from “molecular design” to “extreme service.”

Choosing IOTA 9108 is not merely selecting a material; it is embracing a future-oriented smart manufacturing paradigm—it uses liquid intelligence to crystallize the essence of ceramics, perfectly integrating infinite design possibilities, significant cost advantages, and ultimate performance requirements.

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