Manifestation of accelerator type and vulcanization system on the properties of silica‐reinforced SBR /devulcanize SBR blend vulcanizates

Mechanochemically devulcanized styrene‐butadiene rubber, prepared by bis[3‐(triethoxysilyl)propyl]‐tetrasulfide, was blended with fresh styrene‐butadiene rubber. The ultimate properties of the blend vulcanizate depend on a three‐dimensional network structure formed during vulcanization which relies mainly on the accelerator and the vulcanizing system used during compounding. The effect of monosulfide, disulfide, and poly sulfide cross‐links, which primarily gets controlled by different accelerators such as N‐cyclohexyl‐benzothiazyl‐sulfenamide ( CBS ), tetramethylthiuram disulfide, 2‐mercaptobenzothiazol, and N‐tert‐butyl‐2‐benzothiazyl‐sulfonamide on mechanical, thermal, and dielectric behavior of the blend vulcanizates, was studied. The results indicate that the semi‐efficient CBS vulcanizate has superior mechanical and thermal properties. Therefore, the effect of accelerator to sulfur ratio, that is, (accelerator/sulfur) on the properties of the blend vulcanizates was determined. It is to highlight that a distinctive correlation is observed between the cross‐link types and the fraction of immobilized polymer chains of the blend vulcanizates. Further, the effect of cross‐link types on segmental dynamics of the blend vulcanizates was studied through broadband dielectric spectroscopy. The SEM micrographs indicate the homogeneity of the blend vulcanizates.