Dynamics of a viscoelastic liquid filament connected to two mobile droplets

arXiv: Soft Condensed Matter Pub Date : 2020-03-17 DOI:10.1063/5.0004151

Jiajia Zhou, M. Doi

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引用次数: 5

Abstract

A filament of liquid is usually unstable and breaks up into small droplets, while a filament of polymer solution is known to be quite stable against such instability, and they form a stable configuration of filament connecting two spherical droplets. If the droplets are fixed in space, the liquid flows from the filament region to the droplet region to reduce the surface energy and the filament gets thinner. If the whole liquid is placed in another viscous fluid, the droplets approach each other, and the filament can get thicker. Here we study the dynamics of such system. We derive time evolution equations for the radius and the length of the filament taking into account the fluid flux from filament to droplets and the motion of the droplets. We will show that (a) if the centers of the droplets are fixed, the filament thins following the classical prediction of Entov and Hinch, and that (b) if the droplets are mobile (subject to the Stokes drag in the viscous medium), the thinning of the filament is suppressed, and under certain conditions, the filament thickens. This theory explains the phenomena observed by Yang and Xu [Phys. Fluids 20, 043101 (2008)] in four-roller mill device.

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连接两个可移动液滴的粘弹性液体细丝的动力学

液体的细丝通常是不稳定的，会分裂成小液滴，而聚合物溶液的细丝在这种不稳定的情况下是相当稳定的，它们形成了连接两个球形液滴的稳定的细丝结构。如果液滴在空间中固定，液体从细丝区流向液滴区，使表面能降低，细丝变薄。如果将整个液体置于另一种粘性流体中，液滴相互靠近，灯丝就会变厚。这里我们研究这种系统的动力学。考虑到细丝到液滴的流体通量和液滴的运动，导出了细丝半径和长度的时间演化方程。我们将证明(a)如果液滴的中心是固定的，则细丝会按照Entov和Hinch的经典预测变细，并且(b)如果液滴是移动的(在粘性介质中受到斯托克斯阻力的影响)，则细丝的变薄受到抑制，并且在某些条件下，细丝会变厚。这一理论解释了杨和徐所观察到的现象。流体学报，043101(2008)]。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Soft Condensed Matter

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