In the fields of advanced manufacturing and new material development, materials that simultaneously meet structural strength, high-temperature resistance, and multifunctional integration are gaining increasing attention. We proudly introduce Polysilazane IOTA 9108—an innovative material that combines the dual characteristics of a thermosetting resin and a high-performance ceramic precursor, offering a brand-new solution for the精密成型 and high-performance protection of complex structural components.

Why Choose IOTA 9108?

1. Dual-Function Design, One Material with Multiple Capabilities
At the core of IOTA 9108 is its unique repeating Si-N unit structure. It can be used both as a conventional thermosetting resin for structural bonding and shaping, and as a high-temperature-resistant SiCN ceramic precursor that transforms under mild pyrolysis conditions. With high ceramic yield and a stable, controllable conversion process, it effectively meets the integrated preparation needs from polymer matrix to ceramic material, significantly reducing process complexity and costs.

2. Excellent Processing Suitability
Thanks to its low viscosity and short curing time, IOTA 9108 is suitable for various forming processes such as impregnation, spraying, and casting, adapting to the精密涂覆 and shaping requirements of complex-shaped workpieces. Its flexible curing methods—whether through thermal curing for rapid cross-linking or温和固化 with catalysts—provide broad applicability for different production conditions.

3. Outstanding Bonding and Temperature Resistance
IOTA 9108 exhibits excellent bonding strength to various substrates, including metals, ceramics, and graphite, making it widely applicable for interfacial enhancement and protective coatings in composite materials. The SiCN ceramic formed after high-temperature pyrolysis can withstand long-term use at temperatures up to 1500°C, making it suitable for extreme environments such as high-temperature furnaces, aerospace hot-end components, and corrosion-resistant reaction vessels.

4. Broad Application Areas Driving Technological Advancement
IOTA 9108 shows promising prospects in fields such as ceramic matrix composites, high-temperature-resistant coatings, high-performance adhesives, electronic packaging materials, and structural-functional integrated components. Its integrated material design philosophy helps drive technological innovation in structural lightweighting, functional integration, and green manufacturing.

Choosing IOTA 9108 is not just selecting an advanced material—it is embracing a future-oriented manufacturing strategy that makes the preparation of complex ceramic components simpler, more efficient, and more controllable. Let us work together to drive industrial advancement through material innovation and jointly open a new chapter in high-performance ceramic applications!

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