In industrial production and daily applications, finding a high-performance coating material for substrates like metal, glass, and plastic is no easy task. Some coatings are too viscous to apply smoothly; others take too long to cure, hampering efficiency; still more start to corrode or get scratched just days after application. However, an organopolysilazane material named **IOTA 9150** is now solving these problems with its numerous advantages.

This material is in liquid form and has extremely low viscosity—similar to common thin liquids. Whether you apply it with a brush, spray it with a spray bottle, or dip the substrate in it, it can be operated easily and form an even coating on the surface. Its curing method is also highly flexible: no complex equipment is needed, and it can harden when left at room temperature for about a day. If you’re in a hurry, heating it to 120°C–250°C allows it to cure in as fast as 10 minutes, significantly saving time costs.

The effect after curing is even more impressive. It adheres tightly to substrates such as metal, ceramic, and graphite, and achieves a **Class 0 rating in the professional cross-cut adhesion test**—meaning the coating will not peel off easily. Moreover, it is exceptionally durable: it can resist erosion from oxygen and water, so even if objects coated with it are placed in a humid environment, they won’t rust or deteriorate easily. For daily graffiti, a simple wipe is all it takes to clean the surface; it also resists scratches, with a hardness of up to **7H**—higher than that of ordinary glass.

In terms of application scenarios, it is a true "all-rounder." When used as an automotive coating, a mere 3–8μm thickness can enhance the brightness of the car surface, while also providing anti-corrosion and anti-graffiti protection, keeping the car looking brand-new for a long time. As an adhesive, it can firmly bond components made of different materials. When added to composite materials, it imparts flame-retardant properties, making the materials safer in high-temperature environments. Additionally, with a light transmittance of over 95%, it is ideal for glass coatings—it protects the glass without affecting its light transmission, and can play a vital role in fields like construction and electronic devices.

This high-performance, versatile material undoubtedly provides a new option for substrate protection across various industries, enabling more products to enjoy longer service life and better performance.