In the realms of precision manufacturing and extreme operating conditions, the boundaries of material performance are constantly being redefined. We proudly introduce the revolutionary multifunctional material — IOTA 9120 Organic Polyborosilazane (a Ceramifiable Precursor Polymer). It is not only an easily processable thermosetting resin but also an intelligent key to high-performance SiBCN ceramics, perfectly blending the processing advantages of polymers with the ultimate properties of advanced ceramics.

IOTA 9120 possesses a unique molecular architecture composed of repeating Si-N and Si-N-B units, granting it a dual nature. As a resin, it offers versatile curing options: it can be cross-linked thermally between 120-180°C or, alternatively, undergo rapid curing via hydrosilylation at a mild 80-100°C with a platinum catalyst (in just 2-5 hours). Its low viscosity and flexible processing allow for easy impregnation or coating onto various substrates like metals, ceramics, and graphite, demonstrating excellent adhesion and enabling the fabrication of complex geometries with unprecedented ease.

Its truly transformative value lies in its "conversion" capability. Cured IOTA 9120, upon pyrolysis, efficiently converts into SiBCN ceramics with exceptional temperature resistance and a high ceramic yield. By precisely controlling the pyrolysis atmosphere (nitrogen/argon, ammonia, or air) and incorporating fillers, you can actively "design" the final ceramic composition — from SiC/Si₃N₄ to Si₃N₄ or SiBOCN — thereby tailoring the target properties to meet extreme demands such as ultra-high temperature stability, oxidation resistance, and corrosion resistance. This process unites the precision shaping of polymers with the superior properties of ceramics, opening a new chapter in "structure-function integrated" manufacturing.

From ultra-high temperature resistant coatings and polymer precursors for Ceramic Matrix Composites (CMCs), to high-performance ceramic adhesives, encapsulation for high-temperature sensors, prototyping of aerospace hot-section components, and even cutting-edge fields like nuclear energy and semiconductors, IOTA 9120 is the key material for realizing lightweight, highly reliable, and extreme-environment-resistant core components.

Choosing IOTA 9120 is more than selecting a material; it is choosing comprehensive control over the journey "from design to performance," a future-oriented materials solution. Let us collaborate to crystallize exceptional performance from liquid intelligence and explore the infinite possibilities of engineering materials together.
       Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
       High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.