In extreme application environments such as high temperatures, high pressures, and strong corrosion, the durability and stability of materials are crucial for ensuring the safe operation of equipment and systems. Traditional material solutions often suffer from insufficient temperature resistance, complex processes, and limited performance, making it difficult to meet the stringent demands of industrial development. However, all of this is about to change—IOTA 9120 Organic Polyborosilazane provides a high-end material solution that combines efficient processing and outstanding performance through its innovative structure and versatile application properties.

IOTA 9120 is a groundbreaking ceramicizable precursor polymer with a structure that includes both Si-N units and Si-N-B units, endowing it with excellent processing capabilities and remarkable temperature-resistant potential. It can be used as a thermosetting resin for various bonding, encapsulation, and protective coating applications, and it can also be pyrolyzed under mild conditions to produce SiBCN ceramic products with outstanding thermal stability. The product offers multiple curing methods, enabling rapid crosslinking within a temperature range of 80–180℃ through thermal curing or platinum-catalyzed addition reactions, with short curing times and broad adaptability. Whether applied to metals, ceramics, graphite, or other substrates, IOTA 9120 demonstrates exceptional adhesion and compatibility, meeting the requirements of complex structures and high-reliability scenarios.

With the rapid development of fields such as ceramic matrix composites, advanced high-temperature structures, aerospace, and energy systems, the performance requirements for materials are increasingly stringent. IOTA 9120 not only features a high ceramic yield and excellent resistance to high-temperature oxidation and corrosion but also allows flexible adjustment of the final ceramic composition and properties through different pyrolysis atmospheres and filler selections. This enables a smooth transition from amorphous to crystalline ceramics, with a temperature resistance limit exceeding 1600℃.

Against the backdrop of trends such as new material innovation, high-end manufacturing upgrades, and green energy-saving technologies, IOTA 9120 has been widely adopted in applications such as high-temperature-resistant adhesives, advanced composite materials, and oxidation-resistant coatings, becoming a key material driving industrial technological transformation.

Choosing IOTA 9120 is not just selecting a material—it is embracing a future-oriented technological pathway and a sustainable system guarantee. It will provide solid and lasting support on your journey toward technological innovation and performance excellence.

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