在软固体上滑动的液滴会脱落弹性毛细管轨道

Nan Xue, Lawrence A. Wilen, Robert W. Style, Eric R. Dufresne
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引用次数: 0

摘要

部分润湿液滴的表面张力会使柔软的基底变形。这些变形通常集中在接触线附近的狭窄区域,形成所谓的 "弹性毛细管脊"。当液滴沿着基底滑动时,弹性毛细管脊的运动会耗散基底中的能量并减缓液滴的速度。以前的研究分析了各向同性扩散的液滴,发现前进的接触线 "冲刷 "弹力毛细管脊,其速度由局部毛细管力和体积流变的平衡决定。在这里,我们通过实验探索了液滴在软基底上滑动的动力学过程。在低速情况下,接触线接近圆形,耗散随速度呈对数增长。在液滴速度较高时,接触线呈子弹状,耗散趋于平稳。与此同时,液滴会脱落一圈 "最后毛细管轨迹",在其后面慢慢消失。这些结果表明,液滴倾向于沿着静止的脊滑动,而不是在平移的脊上冲浪。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Droplets sliding on soft solids shed elastocapillary rails
The surface tension of partially wetting droplets deforms soft substrates. These deformations are usually localized to a narrow region near the contact line, forming a so-called `elastocapillary ridge.' When a droplet slides along a substrate, the movement of the elastocapillary ridge dissipates energy in the substrate and slows the droplet down. Previous studies have analyzed isotropically spreading droplets and found that the advancing contact line `surfs' the elastocapillary ridge, with a velocity determined by a local balance of capillary forces and bulk rheology. Here, we experimentally explore the dynamics of a droplet sliding across soft substrates. At low velocities, the contact line is nearly circular, and dissipation increases logarithmically with speed. At higher droplet velocities, the contact line adopts a bullet-like shape, and the dissipation levels off. At the same time, droplets shed a pair of `elastocapillary rails' that fade away slowly behind it. These results suggest that droplets favor sliding along a stationary ridge over surfing atop a translating one.
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