Recently, an organopolysilazane material named IOTA 9150K has garnered significant attention in the market. This liquid organopolysilazane is specifically designed for room temperature curing coating systems, leveraging its unique Si-NH-Si bond to achieve efficient curing at room temperature through hydrolysis and oxidation reactions of Si-NH-Si.

IOTA 9150K not only exhibits low viscosity and short tack-free times but also offers versatile curing methods. After curing, the material becomes incombustible and boasts excellent oxidation and corrosion resistance. It readily reacts with the -OH groups on substrate surfaces, granting it excellent adhesion to substrates. When appropriate catalysts are added, they promote the reaction between Si-H and Si-NH-Si, forming a three-dimensional cross-linked structure that imparts outstanding mechanical properties to the material.

Due to its low viscosity and good adhesion, IOTA 9150K can be applied to various substrates using multiple application methods, including brushing, dipping, spraying, and rolling. These substrates encompass metals, alloys, glass, paint films, and plastics. Additionally, the material exhibits high reactivity, and most products are sold at a 50% concentration, allowing customers to add solvents as needed.

IOTA 9150K's applications span a wide range, including coatings, adhesives, non-combustible composite materials, and more, particularly in fields requiring low surface tension for easy cleaning. With the launch of IOTA 9150K, the room temperature curing coating industry is poised for broader development prospects, offering innovative solutions across various industries.

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