In high-temperature industries, aerospace, and advanced manufacturing, the stability and durability of materials under extreme environments have become key bottlenecks limiting technological breakthroughs. Traditional high-temperature materials often face challenges such as complex processing, insufficient temperature resistance limits, and weak bonding with substrates. While ceramic materials offer superior temperature resistance, they are limited by difficulties in forming and inherent brittleness. The emergence of IOTA 9108 Organopolysilazane, with its unique positioning as a "ceramicizable precursor polymer," ingeniously combines the processability of resins with the high-temperature resistance of ceramics, opening a new technological pathway for high-temperature protection and structural materials.

IOTA 9108 is a liquid precursor polymer designed with repeating Si-N units. It can be used directly as a thermosetting resin or transformed into high-performance SiCN ceramics under mild conditions through pyrolysis. Its low viscosity, short curing time, and diverse curing methods endow the material with excellent processing adaptability, enabling easy implementation of various forming processes such as impregnation, spraying, and molding. This significantly reduces the difficulty of preparing complex components. At the same time, it exhibits exceptional bonding to materials such as metals, ceramics, and graphite, effectively enhancing the overall performance and reliability of composite material interfaces.

In terms of high-temperature performance, IOTA 9108 stands out: it offers a high ceramic yield, a dense and stable structure, and can withstand long-term use at temperatures up to 1500°C, along with excellent oxidation resistance, thermal shock resistance, and corrosion resistance. Whether used for high-temperature-resistant coatings, ceramic matrix composites, or as high-temperature adhesives and protective encapsulation materials, IOTA 9108 provides long-lasting reliable protection under extreme conditions.

Amid the current trend of industrial transformation toward high performance, lightweight design, and green manufacturing, IOTA 9108 is gradually becoming a key material choice in fields such as aerospace, energy equipment, electronic encapsulation, and specialized chemical industries. It not only pushes the boundaries of traditional materials in high-temperature environments but also, through its intelligent transformation "from resin to ceramic," equips engineering materials with the ability to adapt to extreme working conditions.

Choosing IOTA 9108 means opting for an innovative material solution that is moldable, transformable, and capable of withstanding extreme temperatures—from liquid to solid, from polymer to ceramic, witnessing the wisdom and power of materials science in every phase transformation.

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