When extreme temperatures, harsh environments, and complex applications become the core challenges of material innovation, single performance can no longer meet the demands of cutting-edge technology. A true breakthrough requires a material that can be processed as flexibly as a resin, yet remain as stable and durable as a ceramic, and, most crucially—can have its final performance "programmed" according to your needs.

We proudly introduce Organopolysilazane IOTA 9120. This is not a ceramic precursor in the traditional sense, but a genuine "programmable ceramic platform." It offers unprecedented processing freedom in its liquid stage, provides flexible choices during curing, and ultimately enables precise performance customization during ceramification.

Liquid Intelligence, Unlimited Processing Possibilities
IOTA 9120 is supplied as a low-viscosity liquid, easily diluted with various dry solvents, ensuring smooth application via spraying, dipping, casting, and other processes. It exhibits excellent adhesion to metals, ceramics, graphite, and other materials, laying a solid foundation for coating protection of complex components or the preparation of composite materials.

Curing Flexibility, Matching Your Production Line Rhythm
You can choose the optimal curing path based on your production conditions: thermal curing at 120-180°C, or rapid curing within 2-5 hours at 80-100°C using platinum catalysis. This flexibility allows IOTA 9120 to integrate seamlessly into existing production lines.

Performance Customization, Starting the Ceramic "Programming" Revolution
This is the truly revolutionary breakthrough of IOTA 9120—by controlling the pyrolysis atmosphere, you can "design" the final ceramic composition:
• In nitrogen/argon: Obtain SiC and Si₃N₄ composite ceramics
• In ammonia: Primarily generate Si₃N₄ ceramic
• In air: Form SiBOCN ceramic
Combined with the strategic use of fillers, you can further regulate the ceramic's microstructure, thermal expansion coefficient, and mechanical properties, truly achieving "on-demand customization."

From aerospace components enduring temperatures above 1600°C, to high-temperature fixtures and protective coatings in the semiconductor industry; from fireproof and thermal insulation systems for new energy batteries, to radiation-resistant components in the nuclear energy sector, IOTA 9120 provides a one-stop solution from liquid processing to high-performance ceramics.

Choosing IOTA 9120 is not just selecting a material; it is embracing a future-oriented manufacturing philosophy—perfectly integrating design freedom, processing convenience, and ultimate performance. Let us work together to pioneer a new era of high-performance ceramic applications with programmable material intelligence.

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