Research on Flow in Microchannels with Lotus Effect Coating by Molecular Dynamics Simulation

机译：荷叶效应涂层微通道流动的分子动力学模拟研究

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In this paper, nonequilibrim molecular dynamics (NEMD) was used to simulate liquid flow in microchannels with 'lotus effect' coating. Without considering atomic structure and long-range interaction, we have been dedicated in establishing a two-dimensional geometric model based on the coating and studying the behavior of liquid near the inner surfaces of 'lotus effect' microchannels. The shape of a single pattern in the coating and the thickness of one microchannel were varied to study the influences of these parameters on velocity profile of liquid in the flow direction, the maximum of this velocity, and its position perpendicular to flow direction. The proper conditions which made the velocity slip of liquid near the boundary layer of microchannels maximum and liquid move most fast were decided.

机译：在本文中，非平衡分子动力学（NEMD）用于模拟具有“莲花效应”涂层的微通道中的液体流动。在不考虑原子结构和远距离相互作用的情况下，我们一直致力于基于涂层建立二维几何模型，并研究“莲花效应”微通道内表面附近的液体行为。改变涂层中单个图案的形状和一个微通道的厚度，以研究这些参数对液体在流动方向上的速度分布，该速度的最大值以及垂直于流动方向的位置的影响。确定了使微通道边界层附近的液体速度滑移最大，液体移动最快的适当条件。

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来源
《International Conference on Precision Engineering and Micro/Nano Technology in Asia; 20051112-14; Shenzhen(CN) 》|2005年|P.252256|共2页
会议地点 Shenzhen(CN)
作者
K. Jia; H.H. Zhang; X.Q. Fan; X.P. Jiang; S. Liu;
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作者单位

Institute of Micro-Systems, Huazhong University of Science and Technology, Wuhan, 430074, China;

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原文格式 PDF
正文语种 eng
中图分类技术测量方法 ;
关键词
lotus effect; microchannel; molecular dynamics simulation;

机译：荷叶效应；微通道；分子动力学模拟;

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Research on Flow in Microchannels with Lotus Effect Coating by Molecular Dynamics Simulation

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