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表面超疏水性能的数值模拟研究进展
引用本文:郭永刚,罗冰鹏,朱亚超,张鑫,张新瑞.表面超疏水性能的数值模拟研究进展[J].材料保护,2022,55(1):203-215+230.
作者姓名:郭永刚  罗冰鹏  朱亚超  张鑫  张新瑞
作者单位:河南工业大学机电工程学院,河南郑州 450001;河南工业大学汽车复合材料河南省工程实验室,河南郑州 450001;河南工业大学河南省碳纤维复合材料国际联合实验室,河南郑州 450001,河南工业大学机电工程学院,河南郑州 450001,中国科学院兰州化学物理研究所固体润滑国家重点实验室,甘肃兰州 730000
基金项目:国家自然科学基金;河南省留学人员科研择优资助支持项目;固体润滑国家重点实验室开放课题;河南工业大学创新基金支持计划;河南工业大学青年骨干教师培育计划
摘    要:表面超疏水是自然界中一种常见的极端润湿现象。一般认为,表面超疏水是由表面微观结构和化学成分共同决定的。超疏水表面由于独特的非润湿性能,在润湿性变化、减阻、液滴弹跳、传热、蒸发、冷凝等方面具有广泛的应用前景。总结了近年来研究人员在超疏水表面润湿性变化、减阻、液滴弹跳、传热、蒸发、冷凝等方面的数值模拟研究情况,归纳了在超疏水性能研究中常用的数值模拟方法,并对其进行了评价,指出了这些方法存在的优点和缺点,提出了超疏水性能数值模拟研究应该关注的重点和研究方向。

关 键 词:超疏水  数值模拟  润湿性  减阻  液滴弹跳  传热  蒸发  冷凝  展望

Research Progress in Numerical Simulation of Surface Superhydrophobic Properties
GUO Yong-gang,LUO Bing-peng,ZHU Ya-chao,ZHANG Xin,ZNHANG Xin-rui.Research Progress in Numerical Simulation of Surface Superhydrophobic Properties[J].Journal of Materials Protection,2022,55(1):203-215+230.
Authors:GUO Yong-gang  LUO Bing-peng  ZHU Ya-chao  ZHANG Xin  ZNHANG Xin-rui
Affiliation:(School of Mechanical and Electrical Engineering,Henan University of Technology,Zhengzhou 450001,China;Henan Provincial Engineering Laboratory of Automotive Composite Materials,Henan University of Technology,Zhengzhou 450001,China;Henan Province International Joint Laboratory of Carbon Fiber Composite Materials,Henan University of Technology,Zhengzhou 450001,China;State Key Laboratory of Solid Lubrication,Institute of Chemical Physics,Chinese Academy of Sciences,Lanzhou 730000,China)
Abstract:Superhydrophobic surface is a common extreme wetting phenomenon in nature. It is generally believed that superhydrophobic surface is determined by surface microstructure and chemical composition. Due to its unique non-wettability, superhydrophobic surface had a broad application prospect in change of wettability, drag reduction, liquid drop bounce, heat transfer, evaporation, condensation and other aspects. In this paper, the research results of numerical simulations on the change of wettability, drag reduction, droplet bounce, heat transfer, evaporation, condensation of superhydrophobic surfaces in recent years were reported, and then the commonly used numerical simulation methods in the study of superhydrophobic performance were summarized and evaluated. In addition, their advantages and disadvantages were pointed out as well. Finally, the key points and research directions of numerical simulation research on superhydrophobic properties were put forward.
Keywords:superhydrophobic  numerical simulation  wettability  drag reduction  droplet bounce  heat transfer  evaporation  condensation  prospect
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