IOTA
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When the ultimate performance of materials dictates the fate of equipment, and when single-composition ceramics fail to meet diversified and extreme operational demands, do you long for an intelligent material that can “customize” its final properties as simply as writing a program? A solution capable of freely transitioning between “high-performance resin” and “advanced ceramic,” and precisely “evolving” based on the final service environment?
The answer is here: Organoborosilazane IOTA 9120. This is more than a precursor polymer; it is a revolutionary “atmosphere-programmable” liquid ceramic synthesis platform. By innovatively incorporating boron (B) to create a unique Si-N-B structure, it not only endows the material with exceptional foundational properties but also unlocks the disruptive capability to directly control the final ceramic composition and performance through the pyrolysis atmosphere, truly realizing the intelligent material design of “one liquid, multiple ceramics.”
IOTA 9120 offers you complete and in-depth control from processing to performance.
Dual Flexible Curing Paths, Enabling Efficient and Precision Manufacturing:
Thermal Cross-linking Path: Achieves efficient curing within a broad 120-180℃ range, compatible with either air or inert atmosphere, offering great adaptability.
Catalytic Addition Path: With a platinum catalyst, curing via hydrosilylation can be completed within 2-5 hours at gentler temperatures of 80-100℃, perfectly protecting heat-sensitive substrates. Its low viscosity ensures easy and uniform coating or infiltration of complex parts through processes like dipping and spraying.
Disruptive “Atmosphere Programming” Technology, Customize Your Ceramic:
The core revolution of IOTA 9120 lies in the ability to “program-design” the chemical composition and properties of its final ceramic by selecting the pyrolysis atmosphere.
Pursuing Strength, Toughness, and Thermal Shock Resistance? Pyrolyze in a Nitrogen/Argon atmosphere to yield a composite ceramic of SiC and Si₃N₄.
Requiring Exceptional Oxidation Resistance and High-Temperature Stability? Pyrolyze in an Ammonia atmosphere to primarily generate high-purity Si₃N₄ ceramic.
Facing Complex Oxidizing and Corrosive Environments? Pyrolyze in an Air atmosphere to form the unique SiBOCN ceramic. The final product's properties can be further fine-tuned and enhanced by incorporating specific fillers.
This material boasts a high ceramic yield and exhibits good adhesion to substrates like metals, ceramics, and graphite. It enables the reliable and straightforward preparation of SiBCN-based ceramic systems with excellent temperature resistance, with its amorphous product stable in service up to 1600°C.
Important Note: To preserve its optimal activity and processability, IOTA 9120 must be diluted with dry solvents and strictly protected from protic substances such as water, alcohols, acids, and bases. Handling and storage in a dry, inert environment are strongly recommended.
IOTA 9120 is a strategic material for the future, ideally applied in:
Next-generation aerospace engine hot-section components and thermal protection systems.
Long-lasting ultra-high temperature corrosion-resistant coatings for extreme environments.
High-performance braking and friction materials.
High-temperature setters in semiconductor manufacturing.
Any cutting-edge field that requires ceramic composition and properties “tailor-made” for specific extreme operating conditions.
Choosing IOTA 9120 means selecting complete autonomous control from molecular design to macroscopic performance. It grants limitless forming freedom through liquid intelligence and uses the key of “atmosphere programming” to open the door to the world of customized, high-performance advanced ceramics for you.
