Are you striving for ultimate control over a material’s journey—from design and processing to final performance? Do the brittleness and complex shaping of traditional ceramics limit your innovation?

Organoborosilazane IOTA 9120, a revolutionary Ceramizable Precursor Polymer, is engineered for this vision. It not only inherits the intelligent transformation capability from “liquid resin” to “high-performance ceramic” but, through the strategic incorporation of Boron (B), unlocks unparalleled processing versatility and ceramic composition tunability. It allows you to “customize” advanced ceramics tailored to your specific end-use requirements.

Core Innovation: Boron-Enabled Versatility & Design
The core value of IOTA 9120 lies in its unique repeating units of Si-N and Si-N-B. This “boron” modification drives two significant leaps:

1. Exceptional Process Adaptability: The product offers highly flexible curing pathways. It can be cross-linked thermally at 120-180°C (in air or inert atmosphere), or cured gently and rapidly via platinum-catalyzed hydrosilylation at 80-100°C (typically 2-5 hours). Its low viscosity enables easy processing into complex shapes through dipping, infiltration, spraying, and more.

2. Engineered Ultimate Ceramic Properties: Its pyrolysis products are not fixed. By employing different atmospheres such as nitrogen/argon, ammonia, or air, you can selectively obtain ceramics primarily composed of SiC/Si₃N₄, Si₃N₄, or SiBOCN, respectively. This empowers you to proactively “design” the final properties of the ceramic coating—targeting needs like thermal shock resistance, oxidation resistance, or ultra-high temperature stability—all from the same precursor.

Remarkable Properties, Bridging Present and Future

• Efficient Conversion & Robust Bonding: The material features a high ceramic yield, ensuring efficient conversion. In its polymer stage, it exhibits excellent adhesion to substrates like metals, ceramics, and graphite, guaranteeing structural integrity from the preform to the final ceramic component.

• Broad Performance Horizon: The resulting SiBCN-based ceramics leverage the synergistic advantages of boron, carbon, and silicon nitride, offering outstanding potential in high-temperature resistance, oxidation protection, and creep resistance. They are ideal for aerospace thermal structures, next-generation engine components, high-performance braking systems, and semiconductor processing fixtures.

• Convenient Yet Precise Handling: The product can be diluted with various dry solvents for ease of use. However, please note it is sensitive to protic substances like water, alcohols, acids, and bases and requires storage and handling in dry, inert conditions to preserve its performance.

Choosing IOTA 9120 means selecting a complete materials solution platform, from “molecular design” to “performance realization.” It grants you limitless shaping freedom in its liquid state and, through “atmosphere programming,” allows you to customize the material’s ultimate essence in the fire. Let IOTA 9120 help you transform your most advanced material concepts into tangible reality today.

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