Stress relaxation of nitrile rubber composites filled with a hybrid metakaolin/carbon black filler under tensile and compressive forces

Stress relaxation of nitrile rubber composites filled with metakaolin and carbon black under tensile and compressive loading was assessed to determine the effect of the hybrid-system filler on the relaxation process. Nitrile rubber-filled formulations were designed with 50 parts of filler per hundre...

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Bibliographic Details
Published in:Applied clay science 2018-01, Vol.151, p.181-188
Main Authors: da Rocha, Elisson Brum Dutra, Linhares, Felipe Nunes, Gabriel, Cléverson Fernandes Senra, de Sousa, Ana Maria Furtado, Furtado, Cristina Russi Guimarães
Format: Article
Language:English
Subjects:
Carbon black
Hybrid-system filler
Metakaolin
Nitrile rubber
Stress relaxation
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Summary:Stress relaxation of nitrile rubber composites filled with metakaolin and carbon black under tensile and compressive loading was assessed to determine the effect of the hybrid-system filler on the relaxation process. Nitrile rubber-filled formulations were designed with 50 parts of filler per hundred parts of rubber (phr), using carbon black-to-metakaolin ratios of 50:0, 35:15, 25:25, 15:35, and 0:50 phr. In addition, one unfilled vulcanized nitrile rubber (NBR) composite was prepared as reference. The results demonstrated that, although the presence of either filler system composition accelerated the relaxation process compared to the unfilled compound, the substitution of carbon black by metakaolin decreases the relaxation process for both the tensile and compressive tests. The lower stress relaxation caused by metakaolin in hybrid-system filler was ascribed to the reduction of filler-filler network and filler shape. Moreover, metakaolin imposed some constraints on the rubber chain movements when the load was applied in the tensile mode, but the opposite behavior was observed under compressive force. •Metakaolin enhanced the stress relaxation resistance of NBR composites.•Replacement of CB by MK in the NBR composites prolonged the tensile relaxation process.•Stress relaxation under compressive force was more affect by CB than MK.•Payne Effect was reduced as CB content was replaced by MK in hybrid-system filler composition.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2017.10.008