When high temperature becomes the touchstone of performance and conventional coatings fail, does your equipment still lack reliable, ultimate protection? Whether it’s turbine blades facing direct flame in aerospace engines, metal linings enduring long-term corrosion and thermal stress in chemical reactors, or high-temperature molds and heat treatment equipment pursuing performance, all are calling for a revolutionary material that can bridge the boundary between polymer and ceramic.

We present a breakthrough answer from materials science—IOTA OPSZ 1800 Thermal-Cure Organopolysilazane Resin. This is more than a coating resin; it is an intelligent precursor capable of in-situ transformation into high-performance ceramics at elevated temperatures. It successfully shatters the temperature limit of organic coatings, offering astonishing performance from long-term service above 1000°C to instantaneous resistance at 1800°C, cloaking your most critical components in “solid armor” forged from “liquid intelligence.”

Core Technology: The Intelligent Leap from Flexible Resin to Rigid Ceramic
The core of IOTA OPSZ 1800 lies in its unique high-temperature ceramization capability and highly flexible process design, granting you unprecedented control.

• Ultra-High Temperature Protection & Ceramic Conversion: The coating initiates conversion to inert ceramics at temperatures above 700°C, with the final material exhibiting unparalleled thermal stability, oxidation resistance, and corrosion resistance. This is not merely a coating but “in-situ grown ceramic” tightly integrated with the substrate, far outperforming simple overlays.

• Flexible and Efficient Curing Programming:

  • Rapid Mid-Temperature Cure Path: Adding a trace amount of free-radical initiator enables flexible and fast curing within 1 to 90 minutes across a broad temperature range of 100-180°C, perfectly aligning with modern industry's pursuit of efficiency.

  • Direct High-Temperature Cure Path: The initiator-free system can cure directly at 200-250°C. For ultimate performance, heating the component above 425°C deeply triggers the ceramization process, yielding a protective layer approaching a fully ceramic state.

• The Union of Eco-Friendliness and High Performance: The system is a low-viscosity, 99.99% ultra-high solids, solvent-free formulation, significantly reducing VOC emissions in line with green manufacturing trends, while also offering higher application efficiency and coverage.

Broad Applications: Protecting Core Value in Extreme Environments
IOTA OPSZ 1800 is typically used at 10-60% loading and exhibits excellent compatibility with common solvents like alkanes, aromatics, ethers, ketones, and esters, allowing for highly adaptable formulations. It is the ideal base for building next-generation protection systems:

• Ultra-High Temperature Ceramic Coatings: For aerospace engine hot-section components, gas turbine blades, high-temperature heat treatment fixtures—challenging temperature extremes.

• Long-Life Thermally Stable Anti-Corrosion Coatings: Protecting pyrolysis furnace tubes, high-temperature reactors in the energy and chemical sectors, metallurgical thermal equipment—resisting hot corrosion.

• High-Performance Non-Stick/Release Coatings: Applied to high-pressure die-casting molds, sintering setters, industrial interfaces requiring anti-adhesion under extreme temperatures—enhancing production efficiency.

Choosing IOTA OPSZ 1800 is not just selecting a material; it is adopting a future-oriented strategy for ultra-high temperature protection. It translates the intelligence of molecular design into the survivability and卓越 performance of your equipment in the most extreme environments.

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