In sectors with exceptionally stringent material performance requirements, such as aerospace, energy and chemical processing, and metallurgical manufacturing, traditional coatings often struggle to withstand long-term exposure to temperatures above 1000°C. We proudly introduce Thermal-Cure Coating Resin IOTA OPSZ 1800—a revolutionary ceramic precursor coating based on polysilazane technology, specifically engineered for extreme high-temperature environments. With exceptional temperature tolerance, flexible processes, and superior performance, it redefines the boundaries of high-temperature protection.

Why Choose IOTA OPSZ 1800?

1. Ultimate Temperature Resistance, Challenging Thermal Limits
IOTA OPSZ 1800 coatings can operate stably long-term at temperatures above 1000°C, with a peak service temperature reaching 1800°C. Whether for aero-engine hot-section components, high-temperature industrial furnace linings, or chemical reaction equipment, it provides durable and reliable high-temperature protective barriers.

2. Flexible and Efficient Curing Processes, Balancing Energy Savings and Productivity
We offer dual curing solutions:

• Direct Thermal Curing: A solvent-free system with low viscosity and 99.99% solid content, curing rapidly at 200–250°C—environmentally friendly and efficient.

• Catalytic Low-Temperature Curing: With 0.5–1.0% peroxide initiator, curing temperature can be reduced to 100–180°C, completing in 1–90 minutes, significantly lowering energy consumption and especially suitable for heat-sensitive substrates.

3. Intelligent Ceramic Conversion Technology for Continuous Performance Enhancement
When the coating’s service temperature reaches 700°C or higher, IOTA OPSZ 1800 gradually transforms into a dense high-temperature ceramic coating. To accelerate this conversion, heating to 425°C triggers the process, achieving an intelligent upgrade from polymer to ceramic protection.

4. Excellent Process Adaptability and Formulation Flexibility

• Broad Solvent Compatibility: Compatible with various solvents including alkanes, aromatics, ethers, ketones, and esters, with typical addition rates of 10–60%.

• Superior Application Performance: Low viscosity facilitates spraying, dipping, brushing, and other methods, accommodating complex workpiece geometries.

• Multi-Functional Applications: Can be used as high-temperature ceramic coatings, thermally stable anti-corrosion coatings, and high-performance non-stick coatings.

5. Reliable Quality and Stable Supply
The product is available through large-scale and stable production with consistent quality, providing a solid foundation for high-temperature industrial applications.

Whether for thermal barrier coatings in next-generation aero-engines, corrosion-resistant linings for high-temperature chemical equipment, or protection for specialized metallurgical devices, IOTA OPSZ 1800 delivers solutions that surpass traditional materials.

Choosing IOTA OPSZ 1800 is not just selecting a coating—it is embracing a reliable technological pathway for extreme temperature environments. Let’s collaborate to advance high-temperature industries through material innovation!

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