NINGBO INNO PHARMCHEM CO.,LTD. is committed to providing chemical solutions that drive material innovation. Today, we examine the powerful synergy between Trimethallyl Isocyanurate (TMAIC) and peroxide curing agents, a combination that unlocks superior performance in a wide range of polymers.

Peroxide curing is a widely adopted method for crosslinking polymers, forming stable covalent bonds that enhance mechanical strength, thermal resistance, and chemical stability. However, the efficiency and effectiveness of peroxide curing can be significantly boosted by the addition of a coagent. TMAIC stands out as an exceptional coagent due to its trifunctional structure and reactivity.

When TMAIC is used alongside peroxide curing agents, it participates actively in the radical chain reactions, facilitating a more complete and uniform crosslinking of the polymer chains. This synergistic interaction leads to a denser and more ordered polymer network. The resulting improvements are substantial and include enhanced tensile strength, improved elongation, better heat aging resistance, and a marked reduction in compression set.

This powerful combination is particularly beneficial for polymers used in high-performance applications. For instance, in the manufacturing of specialized rubber components for the automotive and aerospace industries, the TMAIC-peroxide system ensures that the final products can withstand extreme temperatures, aggressive fluids, and significant mechanical stress without degradation. The precise control over the crosslinking process offered by this system allows manufacturers to tailor material properties with exceptional accuracy.

By leveraging the synergistic effects of TMAIC and peroxides, NINGBO INNO PHARMCHEM CO.,LTD. empowers industries to create materials that are not only more durable but also more resilient in challenging operational environments. Our high-quality TMAIC ensures optimal performance when paired with peroxide curing systems, supporting your innovation in advanced material development.