Horst Deckmann scite author profile

Four styrene butadiene rubber (SBR) compounds were prepared to investigate the influence of the plasticizer polarity on the mechanical stability of the filler network using simultaneous mechanical and dielectric analysis. One compound was prepared without plasticizer and serves as a reference. The other three compounds were expanded with different plasticizers that have different polarities. Compared with an SBR sample without plasticizer, the conductivity of mechanically unloaded oil-extended SBR samples decreases by an order of magnitude. The polarity of the plasticizer shows hardly any influence because the plasticizers only affect the distribution of the filler clusters. Under static load, the dielectric properties seem to be oil-dependent. However, this behavior also results from the new distribution of the filler clusters caused by the mechanical damage and supported by the polarity grade of the plasticizer used. The Cole–Cole equation affirms these observations. The Cole–Cole relaxation time τ and thus, the position of maximal dielectric loss increases as the polarity of the plasticizer used is also increased. This, in turn, decreases the broadness parameter α implying a broader response function.

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Corrigendum to ‘Simultaneous characterization of dielectric and dynamic-mechanical properties of elastomeric materials under static and dynamic load’ [Polymer 215 (2021) 123413]

Aloui

Lang

Deckmann

et al. 2021

Polymer

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Horst Deckmann

Simultaneous characterization of dielectric and dynamic-mechanical properties of elastomeric materials under static and dynamic load

Influence of the Polarity of the Plasticizer on the Mechanical Stability of the Filler Network by Simultaneous Mechanical and Dielectric Analysis

Corrigendum to ‘Simultaneous characterization of dielectric and dynamic-mechanical properties of elastomeric materials under static and dynamic load’ [Polymer 215 (2021) 123413]

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