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Paper detail

Shear localisation with 2D Viscous Froth and its relation to the Continuum Model

Simulations of monodisperse and polydisperse ($μ_2(A)=0.13\pm0.002$) 2D foam samples undergoing simple shear are performed using the 2D Viscous Froth (VF) Model. These simulations clearly demonstrate shear localisation. The dependence of localisation length on the product $λV$ (shearing velocity $V$ times external wall friction coefficient $λ$) is examined and is shown to agree qualitatively with other published experimental data. A wide range of localisation lengths is found at low $λV$, an effect which is attributed to the existence of distinct yield and limit stresses. The general Continuum Model is extended to incorporate such an effect and its parameters are subsequently related to those of the VF Model. A Herschel-Bulkley exponent of $a=0.3$ is shown to accurately describe the observed behaviour. The localisation length is found to be independent of $λV$ for monodisperse foam samples.

preprint2010arXivOpen access
Joseph D. BarryDenis WeaireStefan Hutzler
cond-mat.soft
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Joseph D. BarryDenis WeaireStefan Hutzler

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