When extreme temperatures, complex atmospheres, and harsh corrosion collectively challenge material limits, and when traditional single-composition ceramics fail to meet diverse performance needs, do you desire a material solution that combines flexible processing with ultimate performance? An intelligent material that, like programming, can “customize” different high-performance ceramics simply by choosing the “atmosphere”?

The future is here—the answer lies within Organoborosilazane IOTA 9120. This is more than a precursor polymer; it is a programmable liquid ceramic synthesis platform. By innovatively incorporating boron (B), it not only achieves卓越 performance but also grants an unprecedented “atmosphere-directed transformation” capability. This allows you to “customize” the derivation of advanced ceramic series—from SiC/Si₃N₄ to SiBOCN—from the same liquid precursor, tailored to your final application requirements.

Core Technology: Boron-Enabled, One Material, Countless Faces
The revolution of IOTA 9120 lies in its unique Si-N-B structure, offering you a dual freedom:

• Freedom in Process Selection:

  • Thermal Cross-linking Path: Cures at 120-180℃, suitable in both air or inert atmosphere.

  • Catalytic Addition Path: With platinum catalyst, cures gently within 2-5 hours at 80-100℃. Its low viscosity ensures easy processing of complex parts via impregnation, spraying, etc.

• Freedom in Customizing Ultimate Properties: Directionally synthesize target ceramics by controlling pyrolysis atmosphere:

  • Nitrogen/Argon → SiC and Si₃N₄ composite ceramic, balancing high strength and thermal shock resistance.

  • Ammonia → High-purity Si₃N₄ ceramic, offering  oxidation resistance and high-temperature stability.

  • Air → Unique SiBOCN ceramic, possessing superior potential for oxidation and corrosion resistance.

  Properties & Professional Guidelines

• Efficient & Reliable: Boasts a high ceramic yield, adheres well to substrates like metals, ceramics, and graphite, and facilitates the easy preparation of SiBCN-based ceramics with excellent thermal resistance.

• Professional Handling: Can be diluted with dry solvents but is highly sensitive to water, alcohols, acids, and bases. Operation in a dry, inert environment is essential to preserve product activity.

Unlocking Boundless Application Prospects
IOTA 9120 is the ideal choice for next-generation cutting-edge applications: next-generation aerospace thermal structures, corrosion-resistant coating systems for extreme environments, high-performance braking materials, semiconductor manufacturing high-temperature carriers, and any frontier field requiring “tailor-made” ceramic properties.

Choosing IOTA 9120 means selecting a complete strategic platform from molecular design to performance realization. It grants limitless shaping freedom through liquid intelligence and uses the key of “atmosphere programming” to open the door to the world of customized ultra-high temperature materials for you, transforming the most forward-thinking concepts into tangible reality.
       Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
       High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.