The Interesting Influence of Nanosprings on the Viscoelasticity of Elastomeric Polymer Materials: Simulation and Experiment

Li, Jun; Lu, Yonglai; Tian, Ming; Li, Fen; Shen, Jianxiang; Gao, Yangyang; Zhang, Liqun

doi:10.1002/adfm.201201438

Cited by 87 publications

(73 citation statements)

References 41 publications

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“…Tanδ at a given temperature decreases with increasing GO content. The tanδ peak decreases with increasing GO loading, indicating that there was a reduction in heat buildup and damping capability of SBR systems29 with GO loading increases.…”

Section: Discussionmentioning

confidence: 98%

High Performance Graphene Oxide Based Rubber Composites

Mao

Wen

Chen

et al. 2013

Sci Rep

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151

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In this paper, graphene oxide/styrene-butadiene rubber (GO/SBR) composites with complete exfoliation of GO sheets were prepared by aqueous-phase mixing of GO colloid with SBR latex and a small loading of butadiene-styrene-vinyl-pyridine rubber (VPR) latex, followed by their co-coagulation. During co-coagulation, VPR not only plays a key role in the prevention of aggregation of GO sheets but also acts as an interface-bridge between GO and SBR. The results demonstrated that the mechanical properties of the GO/SBR composite with 2.0 vol.% GO is comparable with those of the SBR composite reinforced with 13.1 vol.% of carbon black (CB), with a low mass density and a good gas barrier ability to boot. The present work also showed that GO-silica/SBR composite exhibited outstanding wear resistance and low-rolling resistance which make GO-silica/SBR very competitive for the green tire application, opening up enormous opportunities to prepare high performance rubber composites for future engineering applications.

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Section: Discussionmentioning

confidence: 98%

High Performance Graphene Oxide Based Rubber Composites

Mao

Wen

Chen

et al. 2013

Sci Rep

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151

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“…In our previous work based on molecular simulation we found that spring-shape nanofillers have more advantages than fillers of other shapes in reducing dissipation energy of rubber nanocomposites [11]. Despite all this, the effect of the content, the interface between nanofiller and matrix, and the mechanical properties of the spring-shape nanofillers on the viscoelasticity of rubber nanocomposites hasn't been analyzed in detail.…”

Section: Introductionmentioning

confidence: 96%

A simulation study on the effect of spring-shaped fillers on the viscoelasticity of rubber nanocomposite

Yang¹,

Li²,

Chan³

et al. 2015

Composites Part B: Engineering

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“…Under compression, the nanotubes collectively form zigzag buckles that can fully unfold to their original length upon load release [16]. In our previous study [17], we demonstrated by molecular simulation methods that CNTs with high flexibility and reversible elastic deformation can act as nanocoils or nanosprings to adjust the viscoelasticity and decrease the permanent set of elastomer composites when the CNTs are well dispersed in the rubber matrix and have a strong interfacial interaction with the rubber matrix. This motivated us to introduce CNTs into an elastomer matrix to prepare CEC with high elasticity and conductivity, which has not been reported yet.…”

Section: Introductionmentioning

confidence: 99%