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Papers by Jatinder Paul Chugh
The cure properties of some conventional accelerator/sulphur compounds of styrene-butadiene rubbe... more The cure properties of some conventional accelerator/sulphur compounds of styrene-butadiene rubber (SBR) with a sulphur to accelerator ratio of -1 .8, containing no filler, and 10, 30, or 50 pphr rubber by weight precipitated amorphous white silica filler type VN3 were studied at 160 'C by an oscillating disc rheometer curemeter. The optimum cure time, tie, of the compounds was
The tear strengths of some conventionalaccelerated-sulphur vulcanizates of styrene-butadiene rubb... more The tear strengths of some conventionalaccelerated-sulphur vulcanizates of styrene-butadiene rubber (SBR) with a sulphur to accelerator ratio of -1 .8, containing no filler, 10, 30, or 50 parts per hundred rubber by weight (pphr) precipitated amorphous white silica filler type VN3 were measured. The tear tests were performed at different rates ranging from 0 .017 to 8.33 mm/s, at an
The cure properties of some conventional accelerator/sulphur compounds of styrene-butadiene rubbe... more The cure properties of some conventional accelerator/sulphur compounds of styrene-butadiene rubber (SBR) with a sulphur to accelerator ratio of -1 .8, containing no filler, and 10, 30, or 50 pphr rubber by weight precipitated amorphous white silica filler type VN3 were studied at 160 'C by an oscillating disc rheometer curemeter. The optimum cure time, tie, of the compounds was
The tear strengths of some conventionalaccelerated-sulphur vulcanizates of styrene-butadiene rubb... more The tear strengths of some conventionalaccelerated-sulphur vulcanizates of styrene-butadiene rubber (SBR) with a sulphur to accelerator ratio of -1 .8, containing no filler, 10, 30, or 50 parts per hundred rubber by weight (pphr) precipitated amorphous white silica filler type VN3 were measured. The tear tests were performed at different rates ranging from 0 .017 to 8.33 mm/s, at an