Are traditional materials becoming the bottleneck for your product's performance in increasingly severe environments of high temperature, oxidation, and corrosion? When complex components demand both the精细 processing of liquid molding and the ability to withstand extreme temperatures exceeding a thousand degrees, are you struggling to choose between “the convenience of organic resins” and “the performance of inorganic ceramics”?

Now, a revolutionary material ends this dilemma. Organopolysilazane IOTA 9108 is not only a high-performance thermosetting resin but also an intelligent key to the world of advanced ceramics—a “Ceramizable Precursor Polymer.” It grants you ultimate processing freedom through liquid intelligence and then transforms via mild pyrolysis into SiCN ceramic capable of withstanding 1500°C, truly achieving a seamless transition from “design freedom” to “performance pinnacle.”

Core Value: Dual Mission, One-Step Forming
The essence of IOTA 9108 is a liquid polymer built on repeating Si-N units. This unique chemical structure grants it an irreplaceable dual role and outstanding properties:

1. An Excellent Processing Medium: With its characteristics of low viscosity, short curing time, and diverse curing methods, it can easily impregnate, coat, or infiltrate complex substrates or fiber preforms like metals, ceramics, and graphite through processes such as dipping, coating, and potting, enabling near-net-shape forming and densification of components.

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

Why Choose IOTA 9108?

• Simplifies Complexity, Reduces Costs & Improves Efficiency: It revolutionizes the complex powder forming and high-temperature sintering processes of traditional ceramics, making it especially suitable for manufacturing parts with complex shapes or internal channels, and composite materials, significantly lowering production barriers and overall costs.

• Strong Bonding, Reliable Performance: It exhibits excellent adhesion to various materials even in its polymer stage, ensuring strong interfaces and structural integrity from the precursor to the final ceramic product.

• Future-Oriented, Broad Applications: It is an ideal choice for preparing next-generation aerospace thermal protection systems, high-end brake materials, semiconductor high-temperature fixtures, high-performance engine components, and ultra-high temperature corrosion-resistant coatings, providing a core material solution for extreme operating conditions.

Choosing IOTA 9108 means not only selecting a high-performance material but also embracing a disruptive manufacturing philosophy. It makes “complex ceramic parts, formed once from a liquid” a reality, helping you win the future with cutting-edge technology.

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