IOTA
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In an era where extreme operating conditions continually challenge material performance, are you still grappling with the contradiction between “difficult成型 of complex components” and “achieving ultra-high temperature performance”? When design freedom and ultimate performance seem mutually exclusive, have traditional single-phase materials become the bottleneck of your innovation?
Now, a revolutionary solution emerges, bridging the divide between polymers and ceramics—Organopolysilazane IOTA 9108. It is more than a high-performance resin; it is an intelligent key to the world of advanced ceramics: a Ceramizable Precursor Polymer. It allows you to utilize the extreme convenience of a liquid resin for the of complex parts, then, through mild pyrolysis, transform them into advanced SiCN ceramic capable of withstanding 1500°C, achieving a seamless, intelligent leap from “freeform shaping” to “peak performance.”
Core Value: One Material, Dual Capabilities – A Revolution from Liquid Intelligence to Ceramic Performance
The secret of IOTA 9108 lies in its repeating Si-N unit structure, granting it an irreplaceable dual mission and卓越 properties:
An Excellent Processing Medium: With properties like low viscosity, short curing time, and diverse curing methods, it can be easily applied through processes such as impregnation, coating, and potting—like a top-tier engineering resin—to perfectly infiltrate and firmly bond with substrates or preforms like metals, ceramics, and graphite, enabling near-net-shape forming.
An Efficient Ceramic Source: During subsequent mild and controlled pyrolysis, it converts with a high ceramic yield into high-performance SiCN ceramic. This ceramic leverages the advantages of silicon, carbon, and nitrogen, offering not only long-term temperature resistance up to 1500°C but also excellent oxidation and thermal shock resistance.
Why IOTA 9108? – The Key to Unlocking High-End Applications
Design Freedom, Simplifies Complexity: It completely revolutionizes the complex powder-forming processes of traditional ceramics, making it especially suitable for manufacturing parts with complex shapes, internal channels, or fiber reinforcements, significantly reducing manufacturing costs and barriers.
Strong Interface, Reliable Performance: The excellent adhesion it exhibits to various materials in its polymer stage ensures interface integrity throughout the entire transformation from precursor to final ceramic, yielding performance far superior to simple coatings.
Broad Applications, Future-Oriented: As a core base material, it is a strategic choice for building next-generation high-performance systems, specifically including:
Ceramic Matrix Composites and Metal Matrix Composites
High-Temperature Adhesives and Anti-Corrosion Coatings for extreme environments
High-Temperature Oxidation-Resistant Ceramic Coatings
Ceramic Preform Impregnants and High-Performance Thermosetting Resins
Cutting-Edge Organic-Inorganic Hybrid Materials
Choosing IOTA 9108 means selecting a shortcut to material design freedom and performance pinnacle. It forges tomorrow’s ceramic essence with today’s liquid intelligence, helping your innovations break through limits and define the future.
Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.
