Recently, IOTA Chemical announced the launch of an innovative product—Organopolysilazane IOTA 9108. This ceramicable precursor polymer provides new material solutions for ultra-high temperature protection in aerospace, energy equipment, and other fields, thanks to its exceptional temperature resistance and flexible processing characteristics.

"Under ultra-high temperature environments of 1500°C, traditional protective materials often struggle to maintain stable performance," stated IOTA's Advanced Materials R&D Director. "Through its unique Si-N molecular structure design, IOTA 9108 can decompose under mild conditions to form temperature-resistant SiCN ceramics, with a ceramic yield exceeding 75% at 800°C. This represents a revolutionary breakthrough for equipment protection in extreme environments."

The product features low viscosity (10-30 cp) and short curing time, supporting various application methods such as brushing, spraying, and impregnation. In the aerospace field, IOTA 9108 can be used to prepare high-temperature oxidation-resistant ceramic coatings, protecting critical components during operation in extreme environments. In the energy equipment sector, its excellent anti-corrosion properties provide reliable protection for equipment under high-temperature working conditions.

Notably, IOTA 9108 demonstrates excellent adhesion to various materials including metals, ceramics, and graphite, making it an ideal choice for ceramic matrix composites and metal matrix composites. The product is packaged in sealed 0.5-20 liter plastic drums with a solid content exceeding 99%, meeting different needs from laboratory research to industrial production.