Vincenzo Sibillo scite author profile

The deformation and breakup of a drop in an immiscible equiviscous liquid undergoing unbounded shear flow has been extensively investigated in the literature, starting from the pioneering work of Taylor. In this Letter, we address the case of microconfined shear flow, a problem which is relevant for microfluidics and emulsion processing applications. The main effects of confinement include complex oscillating transients and drop stabilization against breakup. In particular, very elongated drop shapes are observed, which would be unstable in the unbounded case and can be explained in terms of wall-induced distortion of the shear flow field. We show that wall effects can be exploited to obtain nearly monodisperse emulsions in microconfined shear flow.

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Start-up and retraction dynamics of a Newtonian drop in a viscoelastic matrix under simple shear flow

Sibillo

Simeone

Guido

et al. 2006

Journal of Non-Newtonian Fluid Mechanics

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Break-up of a Newtonian drop in a viscoelastic matrix under simple shear flow

2004

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Shear-induced clustering of gelling droplets in aqueous biphasic mixtures of gelatin and dextran

Simeone¹,

Sibillo²,

Tassieri³

et al. 2002

Journal of Rheology

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Single Drop Dynamics under Shearing Flow in Systems with a Viscoelastic Phase

Sibillo¹,

Guido²,

Greco³

et al. 2005

Macromolecular Symposia

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In this article, we discuss the dynamics of a single drop immersed in an immiscible liquid, under an imposed shear flow. The two situations of a viscoelastic matrix with a Newtonian drop and of a viscoelastic drop in a Newtonian matrix are considered, both systems being characterized by a viscosity ratio equal to one, and by the same elasticity parameter. Experimental data are taken with a rheo‐optical computer‐assisted shearing device, allowing for drop observation from the vorticity direction of the shear flow. Data favourably compare with predictions of the recently proposed Maffettone‐Greco model, where the drop is described as a deforming ellipsoid.

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