In the cutting-edge manufacturing realm that pursues ultimate performance, are you still forced to choose between “easy-to-process resins” and “high-performance ceramics”? In traditional manufacturing, the  of complex geometries and the ultimate properties of high-temperature resistance and oxidation stability are often mutually exclusive, forming a key bottleneck that restricts product breakthroughs.

Now, materials science brings you a disruptive integrated solution: Organopolysilazane IOTA 9108. It is more than a polymer; it is an epoch-making “Ceramizable Precursor.” As a liquid, it possesses the processability of a resin; after designed heat treatment, it transforms directly into advanced SiCN ceramic capable of withstanding 1500°C, truly achieving an intelligent leap from “flexible manufacturing” to “rigid protection.”

Core Value: Seamlessly Bridging Liquid Processing to Ceramic Performance
The core secret of IOTA 9108 lies in its unique molecular structure built on repeating Si-N units, granting it an unparalleled dual mission:

1. An Excellent Processing Medium: Thanks to its  processability featuring low viscosity, short curing time, and diverse curing methods, it can be easily applied through processes like impregnation, coating, and potting—just like a high-end resin—to perfectly infiltrate and firmly bond with various substrates or fiber preforms such as metals, ceramics, and graphite, enabling the精密 near-net-shape forming of complex components.

2. An Efficient Ceramic Source: During subsequent mild and controlled pyrolysis, it converts with a high ceramic yield directly into high-performance SiCN ceramic. This ceramic material leverages the synergistic advantages of silicon, carbon, and nitrogen, offering not only long-term temperature resistance up to 1500°C but also excellent thermal shock resistance, oxidation resistance, and high hardness.

Why IOTA 9108? – A Breakthrough Competitive Edge

• Simplifies Complexity, Greatly Reduces Costs: It completely revolutionizes the complex and expensive process chain of traditional ceramic powder forming and high-temperature sintering. It is particularly adept at manufacturing components or composites with complex internal cavities and structures, significantly reducing manufacturing costs and technical barriers.

• Strong Bonding, Reliable Performance: It exhibits excellent adhesion to various materials even in its polymer stage, ensuring chemical compatibility and structural integrity at the interface throughout the entire process from precursor to final ceramic product, avoiding the delamination risks common with traditional coatings.

• Future-Oriented, Limitless Applications: It is an ideal foundational material for next-generation aerospace thermal protection systems, ultra-high-temperature engine components, high-end braking materials, semiconductor heat treatment carriers, and corrosion-resistant coatings for extreme environments, providing core support for future-oriented  performance designs.

Choosing IOTA 9108 is not just selecting a high-performance material; it is choosing a shortcut to “design freedom” and “performance pinnacle.” It shapes infinite possibilities with today's liquid intelligence and forges eternal with tomorrow's ceramic essence.
       Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
       High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.