Effective properties of carbon black filled natural rubber: Experiments and modeling

Omnès, B.; Thuillier, Sandrine; Pilvin, Philippe; Grohens, Yves; Gillet, Stéphane

doi:10.1016/j.compositesa.2008.04.003

Cited by 113 publications

(83 citation statements)

References 30 publications

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“…Because of superiorly elastic and damping properties, filled rubber-like materials have been widely used in industry and private life (Dai et al, 2006;Omnès et al, 2008;Misra and Yuan, 2012;Dezfuli and Alam, 2013;Siqueira et al, 2014;Spizzuoco et al, 2014). The filler, such as carbon black and silica, enhances essential properties of polymers like stiffness, strength and abrasion resistance (Chiu et al, 2003;Kaleem et al, 2012;Vesenjaka et al, 2012;Wang et al, 2013a,b;Wang and Han, 2013).…”

Section: Introductionmentioning

confidence: 97%

A finite viscoelastic constitutive model for filled rubber-like materials

Dong

Liao

2015

International Journal of Solids and Structures

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a b s t r a c tFilled rubber-like materials show a significant dependence on predeformation, frequency and amplitude when they are loaded with static predeformations superimposed by harmonic deformations. In order to investigate this predeformation-, frequency-and amplitude-dependent material behavior, a recently developed constitutive model of finite viscoelasticity is proposed based on the models of Lion and Kardelky (2004) and Hofer and Lion (2009). The constitutive equations are geometrically linearized in the neighborhood of predeformation and then formulated for incompressible materials. Finally, the process of parameter identification and some numerical aspects are shown. Additionally, the experimental verification and some numerical simulations will also be supplied. The results show that our model cannot only be used for loading cases with small strains but also with large strains. It may have some meanings for practical engineering applications.

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Section: Introductionmentioning

confidence: 97%

A finite viscoelastic constitutive model for filled rubber-like materials

Dong

Liao

2015

International Journal of Solids and Structures

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“…High surface activity of CB enables the formation of very thin layer of immobilized elastomer chains, i.e. 2-3 nm [8,9], on the outer surface of CB which shows always a glassy behavior followed by some sticky layer with stiffer properties compared with matrix rubber [8,10]. Additionally, the cluster structure of aggregates makes possible the occlusion of a part of elastomer chains within the aggregates which is shielded from the macroscopic deformation caused by the CB aggregate.…”

Section: Introductionmentioning

confidence: 97%

Mechanical performance of styrene-butadiene-rubber filled with carbon nanoparticles prepared by mechanical mixing

Saatchi

Shojaei

2011

Materials Science and Engineering: A

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“…Bouchart et al [13,14] proposed another alternative formula to study compressible hyper-elastic composites. Omn es et al [15] developed a generalized self-consistent scheme, containing the occluded rubber, the bound rubber and a percolating network, to predict the elasticity of filled rubber. Yin [16] developed a constitutive model for particle reinforced elastomers based on Eshelby's tensor [17].…”

Section: Introductionmentioning

confidence: 99%