Core Advantages:
As a ceramifiable precursor polymer, IOTA 9108 features a Si-N repeating unit backbone, serving dual roles as a thermosetting resin and ceramic precursor. Its low viscosity (10-30cp) ensures excellent flow and wettability for complex structures; 2-5 hour rapid curing supports thermal, UV, and multiple curing methods, adapting to diverse production scenarios; >55% ceramic yield enables conversion to dense SiCN ceramic after pyrolysis, with 1500℃ high-temperature resistance and strong adhesion to metals, ceramics, and graphite, offering a one-stop solution for extreme environment materials.

Multi-Field Applications:

• Aerospace: Manufacture heat-resistant rocket engine components and spacecraft thermal protection coatings, maintaining structural stability under high-temperature, high-speed airflow.
• Advanced Manufacturing: Enhance wear/heat resistance as metal brake pad coatings, or reinforce structural strength in ceramic matrix composites (CMCs).
• Chemical Anti-Corrosion: Form high-temperature antioxidant ceramic coatings to protect reactors and pipelines from corrosion and thermal aging.
• Electronics/Energy: Act as high-temperature adhesives or preform impregnants, meeting thermal stability requirements for chip packaging and new energy devices.

Technical & Environmental Assurance:
IOTA 9108 cures under mild conditions and is miscible with epoxy silicone resins, allowing optimized formulations to shorten curing time and enhance hardness. Heavy metal-free and synthesized via green processes, it ensures zero toxic emissions during pyrolysis, aligning with low-carbon manufacturing trends. Flexible packaging (0.5-20L sealed drums) and 12-month shelf life at 0-20℃ guarantee batch stability.

Whether pursuing material lightweighting, high-temperature performance, or simplified ceramic processing, IOTA 9108 empowers industries to break technical barriers with its "liquid resin → solid ceramic" transformation, pioneering a new era of high-temperature material applications.