Shaping Capillary Solids From Statics to Dynamics

IF 14.3 1区 物理与天体物理 Q1 PHYSICS, CONDENSED MATTER
S.I. Tamim, J.B. Bostwick
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引用次数: 0

Abstract

The shape of a soft solid is largely determined by the balance between elastic and surface energies with capillarity becoming important at length scales smaller than the elastocapillary length, which approaches the millimeter scale for the softest hydrogels, leading to many new and surprising phenomena. This review is focused on describing recent experimental and theoretical progress on the deformations of soft solids due to capillarity in two-phase systems for both statics and dynamics. Relative to rigid solids, surface tension can lead to the rounding of sharp corners, wrinkling and creasing, and general morphological shape-change of the static equilibrium configuration, beyond a critical elastocapillary number. With regard to dynamics, both surface tension and viscoelasticity affect wave number selection in a number of dynamic pattern formation phenomena in soft solids, such as elastocapillary-gravity waves, Rayleigh–Taylor instability, Plateau–Rayleigh instability, Faraday waves, and drop oscillations, all of which have direct analogs with classical hydrodynamic instabilities helping to interpret the relevant physics.
从静力学到动力学塑造毛细管固体
软固体的形状在很大程度上取决于弹性能和表面能之间的平衡,而在长度尺度小于弹性毛细管长度(最软的水凝胶接近毫米尺度)的情况下,毛细管性变得非常重要,这导致了许多令人惊讶的新现象。本综述将重点介绍软固体在两相系统的静力学和动力学中因毛细现象而产生变形的最新实验和理论进展。相对于刚性固体,表面张力可导致尖角变圆、起皱和折痕,以及超过临界弹性毛细管数后静态平衡构型的一般形态变化。在动力学方面,表面张力和粘弹性都会影响软固体中一些动态形态形成现象的波数选择,如弹性毛细管-重力波、瑞利-泰勒不稳定性、高原-瑞利不稳定性、法拉第波和水滴振荡,所有这些都与经典的流体力学不稳定性有直接的相似之处,有助于解释相关的物理学。
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来源期刊
Annual Review of Condensed Matter Physics
Annual Review of Condensed Matter Physics PHYSICS, CONDENSED MATTER-
CiteScore
47.40
自引率
0.90%
发文量
27
期刊介绍: Since its inception in 2010, the Annual Review of Condensed Matter Physics has been chronicling significant advancements in the field and its related subjects. By highlighting recent developments and offering critical evaluations, the journal actively contributes to the ongoing discourse in condensed matter physics. The latest volume of the journal has transitioned from gated access to open access, facilitated by Annual Reviews' Subscribe to Open initiative. Under this program, all articles are now published under a CC BY license, ensuring broader accessibility and dissemination of knowledge.
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