In fields such as aerospace, energy equipment, and advanced manufacturing, the high-temperature resistance of materials often determines the success or failure of products. Traditional high-temperature materials face challenges such as complex processing, weak interfacial bonding, and insufficient temperature limits, while ceramic materials are restricted in applications due to their brittleness and forming difficulties. Now, IOTA 9108 Organopolysilazane, through the innovative concept of a "ceramicizable precursor," cleverly integrates the processability of polymers with the high-temperature resistance of ceramics, offering new possibilities for material protection in extreme environments.

IOTA 9108 is a liquid precursor polymer based on a repeating Si-N unit structure. It can not only be used directly as a high-performance thermosetting resin but can also be pyrolyzed under relatively mild conditions to transform into SiCN ceramics. Its unique molecular design it low viscosity, short curing time, and diverse curing methods, enabling easy adaptation to various forming processes such as impregnation, spraying, and injection molding, significantly lowering processing barriers. At the same time, bonding ensures strong interfacial adhesion with various substrates, including metals, ceramics, and graphite, effectively enhancing the overall performance of composite materials.

In high-temperature application scenarios, IOTA 9108 demonstrates remarkable performance: high ceramic yield, dense and stable structure, long-term temperature resistance up to 1500℃, and excellent oxidation resistance, thermal shock resistance, and corrosion resistance. Whether used as a high-temperature protective coating, a binder for ceramic matrix composites, or for manufacturing  components with complex shapes, IOTA 9108 maintains reliable performance under extreme conditions.

As industrial technology advances toward high reliability, lightweight design, and green manufacturing, IOTA 9108 is becoming a key driver in promoting innovation in high-temperature materials and expanding application boundaries. It not only addresses performance bottlenecks of many traditional materials in extreme environments but also, with its "intelligent transformation"特性, provides unprecedented flexibility in designing high-temperature protection and structural materials.

Choosing IOTA 9108 means opting for a moldable, transformable, and  temperature-resistant cutting-edge material solution—from liquid to ceramic, from room temperature to 1500℃, every transformation embodies the wisdom and power that materials science brings to engineering.
Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.