In the fields of high-temperature industry and advanced manufacturing, the temperature resistance, structural stability, and long-term reliability of materials have become central issues for industrial development. However, traditional high-temperature protective materials commonly face challenges such as high processing temperatures, complex processes, and poor adhesion to substrates, making it difficult to meet the urgent demands of industries such as aerospace, energy equipment, and  manufacturing for high-temperature-resistant and highly reliable materials. To address this challenge, IOTA 9108 Organopolysilazane has emerged. It is not only a high-performance thermosetting resin but also an efficient ceramicizable precursor that can transform into SiCN ceramics with a temperature resistance of up to 1500°C under  conditions, offering a solution for material protection and performance enhancement in high-temperature environments.

Based on a design of repeating Si-N unit structures, IOTA 9108 features low viscosity, short curing time, and diverse curing methods, making it easy to process and suitable for various needs such as spraying, impregnation, and coating. Its processing  not only lowers production barriers but also expands its application range on complex structural substrates, particularly excelling in fields with high requirements for surface and adhesion.

Functionally, the most notable highlight of IOTA 9108 is its high ceramic yield and outstanding high-temperature性能. After pyrolysis and transformation, the resulting SiCN ceramic structure is dense and exhibits excellent temperature resistance, capable of operation in extreme environments up to 1500°C while maintaining good oxidation resistance, thermal shock resistance, and chemical stability. Additionally, its bonding ability covers various substrates such as metals, ceramics, and graphite, effectively enhancing the overall  of composite material interfaces and improving product reliability and service life.

Currently, with the growing demand for high-temperature materials in industries such as new energy, aerospace, and semiconductors, IOTA 9108 is widely used in fields including high-temperature-resistant coatings, ceramic matrix composites, high-temperature adhesives, and  functional coatings, becoming a key material driving industries toward high-performance and high-reliability development.

Choosing IOTA 9108 means opting for an innovative material solution that is multifunctional, high-temperature-resistant, and easy to process. It not only elevates the temperature resistance limits of products but also  new momentum for sustainable innovation in industries.