Journal of Applied Polymer Science, ( ISI ), Volume (132), No (8), Year (2015-1)

Title : ( Effect of various efficient vulcanization cure systems on the compression set of a nitrile rubber filled with different fillers )

Authors: Saeed Ostad Movahed , A.Ansarifar , Farnaz Mirzaie Mahmouie ,

Citation: BibTeX | EndNote

Abstract

Effect of various efficient vulcanization sulfur cure systems (EV) on the compression set of a nitrile rubber filled with carbon black and silica/silane fillers was examined. The cure systems had different amounts of thiuram and sulfenamide accelerators and elemental sulfur, whilst the loading of zinc oxide and stearic acid activators was kept constant. The fillers had surface areas from 35 to175 m2/g. In this study, the lowest compression set was measured for the rubber filled with carbon black with 78 m2/g surface area, which was cured with an EV cure system made of a small amount of elemental sulfur and large amounts of the two accelerators. Interestingly, a small change in the amount of elemental sulfur had a bigger effect on the compression set than did large changes in the loading of the accelerators in the cure system. Among the fillers, carbon black caused less compression set of the rubber vulcanizate than the silica/silane system did.

Keywords

, crosslinking, mechanical properties, rubber
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@article{paperid:1043516,
author = {Ostad Movahed, Saeed and A.Ansarifar and Mirzaie Mahmouie, Farnaz},
title = {Effect of various efficient vulcanization cure systems on the compression set of a nitrile rubber filled with different fillers},
journal = {Journal of Applied Polymer Science},
year = {2015},
volume = {132},
number = {8},
month = {January},
issn = {0021-8995},
keywords = {crosslinking; mechanical properties; rubber},
}

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%0 Journal Article
%T Effect of various efficient vulcanization cure systems on the compression set of a nitrile rubber filled with different fillers
%A Ostad Movahed, Saeed
%A A.Ansarifar
%A Mirzaie Mahmouie, Farnaz
%J Journal of Applied Polymer Science
%@ 0021-8995
%D 2015

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