In aerospace, energy, power systems, and advanced manufacturing, material requirements are evolving towards extreme performance and functional integration. Traditional materials often struggle to balance high‑temperature stability, structural strength, and process complexity. We proudly introduce Polysilazane IOTA 9108—an innovative material that combines the dual characteristics of a high‑performance polymer and an advanced ceramic precursor, offering you a seamless solution that bridges “resin processing” and “ceramic formation.”

Why is IOTA 9108 Your Ideal Choice?

1. One Material, Dual Capabilities—Redefining Manufacturing Workflows
The core innovation of IOTA 9108 lies in its “dual‑function identity.” As a high‑performance thermosetting resin, it enables easy shaping, impregnation, and bonding of complex components. Under mild thermal treatment, it efficiently transforms into high‑temperature‑resistant SiCN ceramics. This integrated design not only significantly simplifies process flows but also reduces overall costs from prototyping to mass production, achieving “one‑step” material application.

2. Exceptional Process Adaptability

• Low Viscosity and High Fluidity: Facilitates perfect coverage of complex‑shaped workpieces through impregnation, spraying, casting, and other processes—especially suitable for reinforcing porous materials and composite structures.

• Rapid Curing and Flexible Processes: Offers diverse curing options, compatible with both conventional thermal‑curing production lines and low‑temperature, high‑efficiency cross‑linking via catalysts, significantly improving production efficiency.

• High Ceramic Yield: Maintains a high ceramic conversion rate even under mild pyrolysis conditions, ensuring high material utilization and effectively reducing waste and cost.

3. Outstanding Performance

• Excellent Bonding Properties: Demonstrates superior interfacial adhesion to various substrates including metals, ceramics, and graphite, making it an ideal choice for preparing high‑performance composites.

• Extreme Temperature Resistance: The SiCN ceramics formed after pyrolysis can operate stably long‑term in extreme environments up to 1500°C, meeting the most demanding requirements for high‑temperature protection and structural applications.

• Superior Comprehensive Properties: The resulting ceramic material combines good thermal‑shock resistance, oxidation resistance, and mechanical strength, providing reliable protection for high‑temperature dynamic components.

4. Broad Application Prospects
From high‑temperature coatings for aero‑engine hot‑section components to corrosion‑resistant linings for high‑temperature furnaces; from ceramic‑matrix composites for next‑generation braking systems to high‑temperature insulation parts in the semiconductor field—IOTA 9108 is delivering innovative material solutions for critical sectors such as energy, transportation, electronics, and defense.

Choosing IOTA 9108 is more than selecting a material—it is embracing a future‑oriented manufacturing philosophy and technological pathway. Let’s collaborate to drive industrial advancement through material innovation and together pioneer a new era 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.