Journals of the American Physical Society - Universal retraction process of a droplet shape after a large strain jump

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January 2008, to be published in Physical Review E

Universal retraction process of a droplet shape after a large strain jump
S. Assighaou and L. Benyahia

We evidenced a universal relaxation behaviour of a droplet embedded in a immiscible fluid of same density. After a large strain jump, the relaxation can be characterized by two related relaxation times $\tau_1=4.4\tau_2$ independently of the viscosity ratio and of the applied strain. The change in the kinetic process is driven by the drop geometry and happens invariably when the shape of the drop is an oblate ellipsoid of revolution where the relation between the major (L) and the minor (B)axis is given by $\ln(L/B)\approx 0.5$. This universal behaviour can be explained by considering the normal stress difference across the droplet interface i.e. the curvature of the drop.

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