Dynamics of Fakir Liquids: from Slip to Splash

C. Duez; C. Ybert; C. Barentin

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Dynamics of Fakir Liquids: from Slip to Splash

机译：Fakir液体的动力学：从滑到飞溅

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Superhydrophobic surfaces, associated with the so-called Lotus effect, have attracted numerous studies in the past few years, originally motivated by their unique non-wetting properties and resulting applications (water-repellency, self-cleaning surfaces, etc.). It was soon recognized, however, that beyond their static superhydrophobic (SH) properties, such surfaces led to quite unique dynamic properties. In the present paper, we will review recent works studying the liquid flow behavior in the vicinity of SH surfaces. Addressing separately the case of microfluidics and macroscale hydrodynamics, we consider the possibilities and limitations of these materials as super-lubricating surfaces and discuss to which extents they may be used to fabricate "smart" surfaces capable of controlling flow properties.

机译：在过去的几年中，与所谓的莲花效应相关的超疏水表面吸引了众多研究，最初是由其独特的不润湿特性和由此产生的应用（疏水性，自清洁表面等）引起的。但是很快就认识到，这些表面除了具有静态超疏水（SH）性能外，还具有非常独特的动态性能。在本文中，我们将回顾研究SH表面附近液体流动行为的最新工作。分别针对微流体和宏观流体动力学问题，我们考虑了这些材料作为超级润滑表面的可能性和局限性，并讨论了它们在多大程度上可用于制造能够控制流动特性的“智能”表面。

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《Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology》 |2008年第4期|共17页
作者
C. Duez; C. Ybert; C. Barentin;
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正文语种 eng
中图分类胶粘剂工业;
关键词
Lotus effect; fluid dynamics; microfluidics; hydrodynamic slippage; impact problem;

机译：莲花效应;流体动力学;微流体;流体动力学滑移;碰撞问题;

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1. Dynamics of Fakir Liquids: from Slip to Splash [J] . C. Duez, C. Ybert, C. Barentin Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2008,第3a4期

机译：Fakir液体的动力学：从滑到飞溅
2. Splash formation and cavity dynamics of sphere entry through a viscous liquid resting on the water [J] . Tiezhi Sun, Heng Wang, Zhi Zong, AIP Advances . 2019,第7期

机译：通过粘在水面上的粘性液体使球进入的飞溅形成和腔动力学
3. Dynamics of Liquid Sheet Breakup in Splash Plate Atomization [J] . Thunivumani G., Gadgil Hrishikesh Journal of Fluids Engineering: Transactions of the ASME . 2018,第1期

机译：飞溅板雾化中液体薄片分解的动态
4. A molecular dynamics study on slip phenomenon at solid-liquid interface [C] . Hui Wang, Yuanzhong Hu, Yan Guo, Asia international conference on tribology;ASIATRIB'98 . 1998

机译：固液界面滑移现象的分子动力学研究
5. Physics-based animation of large-scale splashing liquids, elastoplastic solids, and model-reduced flow. [D] . Gerszewski, Daniel James. 2014

机译：大型飞溅液体，弹塑性固体和模型减少流量的基于物理的动画。
6. Controlling liquid splash on superhydrophobic surfaces by a vesicle surfactant [O] . Meirong Song, Jie Ju, Siqi Luo, 2017

机译：通过囊泡表面活性剂控制液体在超疏水表面上的飞溅
7. Molecular dynamics investigation of the slip flow liquid–solid interfacial thermal conductance [O] . Zhenyu Wang, Shangwei Sun, Yifan Cui, 2021

机译：防滑流动液固 - 固体界面热传导的分子动力学研究
8. Prediction of performance of two-phase flow nozzle and liquid metal magnetohydrodynamic (LMMHD) generator for no slip condition. [R] . G. Fabris L. Back 1992

机译：无滑移条件下两相流喷嘴和液态金属磁流体动力（LmmHD）发电机性能预测。

Dynamics of Fakir Liquids: from Slip to Splash

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