Influence of carbon black on the Payne effect of filled natural rubber compounds

The incorporation of carbon black (CB) in natural rubber (NR) enhances the Payne effect while the mechanism has not been clearly clarified so far. Herein the Payne effect of CB filled NR compounds under large strain amplitudes is investigated via simultaneous measurement of rheological response and...

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Veröffentlicht in:	Composites science and technology 2021-02, Vol.203, p.108586, Article 108586
Hauptverfasser:	Shi, Xuanyu, Sun, Shihao, Zhao, An, Zhang, Haimo, Zuo, Min, Song, Yihu, Zheng, Qiang
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon Carbon black Conduction heating Electrical conduction Low temperature Nano composites Nanocomposites Natural rubber Non-linear behaviour Plastic deformation Rheological properties Rheology Rubber Strain analysis
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container_title	Composites science and technology
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creator	Shi, Xuanyu Sun, Shihao Zhao, An Zhang, Haimo Zuo, Min Song, Yihu Zheng, Qiang
description	The incorporation of carbon black (CB) in natural rubber (NR) enhances the Payne effect while the mechanism has not been clearly clarified so far. Herein the Payne effect of CB filled NR compounds under large strain amplitudes is investigated via simultaneous measurement of rheological response and electrical conduction. Low temperature and high frequency accelerate the Payne effect. The destruction and recovery of CB agglomerates are not synchronized with the appearance of the Payne effect, indicating that the structural evolution of the filler phase is not the main factor dominating the Payne effect. The investigation would be illuminating for understanding the molecular mechanisms of strain softening in rubber nanocomposites. [Display omitted]
doi_str_mv	10.1016/j.compscitech.2020.108586
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Herein the Payne effect of CB filled NR compounds under large strain amplitudes is investigated via simultaneous measurement of rheological response and electrical conduction. Low temperature and high frequency accelerate the Payne effect. The destruction and recovery of CB agglomerates are not synchronized with the appearance of the Payne effect, indicating that the structural evolution of the filler phase is not the main factor dominating the Payne effect. The investigation would be illuminating for understanding the molecular mechanisms of strain softening in rubber nanocomposites. 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subjects	Carbon Carbon black Conduction heating Electrical conduction Low temperature Nano composites Nanocomposites Natural rubber Non-linear behaviour Plastic deformation Rheological properties Rheology Rubber Strain analysis
title	Influence of carbon black on the Payne effect of filled natural rubber compounds
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