Studies on sulfur vulcanization of natural rubber accelerated combinedly with 2‐mercaptobenzothiazole and diphenylguanidine both in presence and absence of dicumyl peroxide

Abstract

AbstractSulfuration of natural rubber (NR) by the binary accelerator 2‐mercaptobenzothiazole (MBT) and diphenylguanidine (DPG) both in presence and in absence of ZnO and stearic acid with or without dicumylperoxide (DCP) was studied in detail. It was observed that the rate of decomposition of DCP in presence of both MBT and DPG is quite similar to that with MBT alone. The reduction of crosslinking depends also on MBT only. Through DPG has no influence on the decomposition rate, it reacts with MBT during the vulcanization process and suppresses the retardation caused by MBT on the DCP vulcanization. In accordance with the initial additiveness of crosslinking in systems containing DCP, the free sulfur decrease, and the rapidity of crosslink formation the vulcanization process of MBT‐DPG‐S‐NR systems was interpreted in terms of a polar mechanism induced by the complex MSH2NR′R″. In mixtures containing DCP together with sulfur, MBT, DPG, ZnO, and stearic acid, the initial stage of crosslinking is additive as indicated by a mixed reaction as well as by a methyl iodide treatment of the vulcanizates. Comparison with single accelerators shows a pronounced synergistic effect. This is because of the enhanced activity of the MBT‐ZnO‐stearic acid complex due to DPG which also induces polar sulfuration of NR by forming the active complex MSH2NR′R″. In presence of ZnO and stearic acid, DCP cannot increase the net crosslink density but suppresses the reversion so much pronounced in its absence.