As a benchmark ceramic precursor polymer, IOTA 9108 redefines high-temperature material standards with exceptional performance. Its unique Si-N repeating unit structure serves dual roles as a thermosetting resin and ceramic precursor, boasting ultra-low viscosity (10-30 cp) for seamless spreading and infiltration. Curing in just 2-5 hours, it supports versatile processes: thermal curing at 120-180°C or platinum-catalyzed hydrosilylation at 80-100°C, adapting effortlessly to diverse manufacturing needs.

Upon high-temperature pyrolysis, IOTA 9108 transforms into SiCN ceramics with a service temperature exceeding 1500°C. With >75% ceramic yield at 800°C, it remains amorphous below 1400°C for superior thermal stability. Pyrolysis in N₂/Ar yields SiC-Si₃N₄ composites, in NH₃ atmosphere forms Si₃N₄, and in air produces SiOCN—customizable via fillers for aerospace, automotive, and electronics applications.

Exceptional adhesion to metals, ceramics, and graphite makes it ideal for rocket engine heat-resistant components, brake pad wear-resistant coatings, and high-temperature adhesives for electronic chips. With >99% solid content and near-zero VOC, it aligns with eco-friendly production trends.

Storage & handling are hassle-free: available in 0.5-20L sealed plastic drums, with a 6-month unopened shelf life and >2-month usability after opening under sealed, low-temperature conditions. Clean tools immediately with acetone or solvent oil post-use for safe, efficient operation.

Choose IOTA 9108—where high temperature becomes a catalyst for innovation, not a limitation.

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