Triallyl Isocyanurate, commonly known as TAIC and identified by CAS number 1025-15-6, stands out as a highly effective multifunctional olefin monomer. Its unique aromatic heterocyclic structure makes it an invaluable asset in the chemical industry, particularly for enhancing the performance of polymers and rubbers. As a leading manufacturer in China, we are dedicated to providing high-quality TAIC that meets stringent industrial standards.

One of the primary applications of TAIC is its role as a crosslinking agent. In the realm of plastics, TAIC is widely used to modify thermoplastics such as polyethylene, polyvinyl chloride, chlorinated polyethylene, EVA, and polystyrene. When incorporated into these materials, TAIC significantly improves their heat resistance, flame retardancy, solvent resistance, and overall mechanical strength. This is particularly important for products that are exposed to challenging environments or require prolonged durability. For instance, using TAIC in the crosslinking of polyethylene can lead to cables with superior insulation and resistance properties. This enhancement of polymer heat resistance is a key benefit driving its adoption.

In the rubber industry, TAIC serves as an excellent assistant vulcanizing agent. It is particularly effective for specialty rubbers like ethylene propylene rubber (EPDM), various fluororubbers, and chlorinated polyethylene (CPE). When used in conjunction with peroxide curing systems, TAIC can dramatically shorten the vulcanization time. Moreover, it contributes to improved tensile strength, enhanced wear resistance, and better resistance to solvents and corrosion. This makes TAIC a crucial component for manufacturers seeking to optimize their rubber compounding processes and achieve superior product quality. The ability of TAIC to act as a rubber auxiliary directly translates into more robust and longer-lasting rubber products.

Beyond its applications in plastics and rubber, TAIC is also utilized as a modifier and intermediate in other sectors. It plays a role in the formulation of photocurable coatings and adhesives, imparting improved durability and performance. Furthermore, it acts as an intermediate for flame retardants, contributing to fire safety in various materials. The chemical stability of TAIC, coupled with its non-flammable and non-explosive nature, makes it a safe and reliable choice for storage and transportation, adhering to non-dangerous goods regulations. By leveraging the unique properties of TAIC, industries can achieve advanced material performance, making it a staple for innovation.