In cutting-edge industries such as high-temperature manufacturing, aerospace, and new energy, the demand for advanced structural materials continues to grow. Traditional materials often fall short when exposed to extreme temperatures, corrosive environments, and complex stress conditions. We proudly introduce Polysilazane IOTA 9108—a ceramic-precursor polymer that combines outstanding processing performance with , opening new pathways for fabricating complex components and providing reliable high-temperature protection.

Why Choose IOTA 9108?

1. Multifunctional Integrated Design
IOTA 9108 serves a dual purpose: it functions as a thermosetting resin for structural shaping and bonding, and also acts as a precursor for high-performance SiCN ceramics through pyrolysis under mild conditions. This dual functionality allows a seamless transition from polymer processing to ceramic formation, significantly streamlining the process flow and reducing overall costs.

2. Exceptional Processing Adaptability

• Low Viscosity: Enables various forming processes such as impregnation, injection molding, or coating, making it ideal for precision machining of complex-shaped components.

• Short Curing Time: Effectively improves production efficiency and shortens manufacturing cycles.

• Diverse Curing Methods: Offers flexibility with thermal or catalytic curing options, tailored to meet specific application requirements across different scenarios.

3. Excellent Ceramization Performance
IOTA 9108 features high ceramic yield, enabling efficient pyrolysis and conversion under relatively mild conditions. The resulting SiCN ceramic material exhibits exceptional high-temperature resistance, capable of long-term stable performance in environments up to 1500°C.

4. Broad Substrate Compatibility
The product demonstrates excellent bonding performance with a wide range of materials, including metals, ceramics, and graphite. It is particularly suitable as an interfacial enhancer or protective coating for composite materials, effectively improving the overall structure's high-temperature and mechanical .

5. Extensive Application Prospects
Whether for high-temperature furnace linings, aerospace engine components, corrosion-resistant reaction vessels, or next-generation energy storage and electronic devices, IOTA 9108 provides reliable solutions to help products maintain  under extreme conditions.

Choosing IOTA 9108 is not just selecting an advanced material—it is embracing a future-oriented technological pathway. Let’s collaborate to drive industrial advancement through innovative materials technology and together pioneer 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.