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In industrial anti-corrosion, high-temperature oxidation-resistant coatings, and high-performance thermosetting resins, materials must simultaneously meet application convenience, curing efficiency, and extreme environmental tolerance. IOTA 9108 Organic Polysilazane, with its dual identity as both a resin and a ceramic precursor, offers coating engineers and resin formulators an innovative material that combines fluidity, fast curing, and ultra-high temperature resistance.
Dual Functionality: Can be used directly as a thermosetting resin or pyrolyzed to form a SiCN ceramic coating
Low Viscosity (10–30 cp): Suitable for spraying, brushing, and dipping — penetrates small pores
Short Curing Time: Rapid curing under heat, light, or moisture — improves production efficiency
High Ceramified Density (1.60–2.00 g/cm³): Forms a dense protective layer
1500°C Resistance: Ceramified coating withstands long-term high-temperature oxidation at 1500°C
Excellent Adhesion to Metals, Ceramics, and Graphite: No separate primer required
| Application Area | Specific Use | Core Value |
|---|---|---|
| High-Temperature Oxidation-Resistant Ceramic Coatings | Surface protection for metals, graphite, and C/C composites | Dense SiCN protective layer — oxidation resistance at 1500°C in air |
| Anti-Corrosion Coatings | Chemical equipment, high-temperature pipes, engine components | Corrosion resistance and thermal shock resistance — extends equipment life |
| Thermosetting Resin | High-performance adhesives, sealants, potting compounds | High temperature resistance, high hardness, excellent chemical stability after curing |
| Organic-Inorganic Hybrid Materials | Functional coatings, specialty films | Combines processability of organic materials with temperature resistance of inorganic materials |
| Parameter | Value |
|---|---|
| Appearance | Colorless to light yellow liquid |
| Solid Content | >99% |
| Viscosity | 10–30 cp |
| Curing Methods | Thermal, photo, or moisture curing |
| Ceramic Yield (800°C) | >55% |
| Ceramic Yield from Cured Product (800°C) | >75% |
| Maximum Temperature Resistance (after ceramification) | 1500°C |
IOTA 9108 breaks through the limitations of conventional organic resins (insufficient heat resistance) and inorganic coatings (difficult application). It is as easy to apply as ordinary resins. After application, it can either remain as an organic polysilazane resin or be pyrolyzed into a 1500°C-resistant ceramic coating — offering unprecedented flexibility for the design of anti-corrosion and high-temperature coatings.
IOTA 9108 – Liquid application, ceramic service. Dual identity, one material, multiple solutions.
