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Topographic variation and fluid flow characteristics in rough contact interface
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作者 Jiawei JI Wei SUN +5 位作者 Yu DU Yongqing ZHU Yuhang GUO Xiaojun LIU yunlong jiao Kun LIU 《Friction》 SCIE EI CAS CSCD 2024年第12期2774-2790,共17页
Understanding flow characteristics of fluid near rough contact is important for the design of fluid-based lubrication and basic of tribology physics.In this study,the spreading and seepage processes of anhydrous ethan... Understanding flow characteristics of fluid near rough contact is important for the design of fluid-based lubrication and basic of tribology physics.In this study,the spreading and seepage processes of anhydrous ethanol in the interface between glass and rough PDMS are observed by a homemade optical in-situ tester.Digital image processing technology and numerical simulation software are adapted to identify and extract the topological properties of interface and thin fluid flow characteristics.Particular attention is paid to the dynamic evolution of the contact interface morphology under different stresses,the distribution of microchannels in the interface,the spreading characteristics of the fluid in contact interface,as well as the mechanical driving mechanism.Original surface morphology and the contact stress have a significant impact on the interface topography and the distribution of interfacial microchannels,which shows that the feature lengths of the microchannels,the spreading area and the spreading rate of the fluid are inversely proportional to the load.And the flow path of the fluid in the interface is mainly divided into three stages:along the wall of the island,generating liquid bridges,and moving from the tip side to the root side in the wedge-shaped channel.The main mechanical mechanism of liquid flow in the interface is the equilibrium between the capillary force that drives the liquid spreading and viscous resistance of solid wall to liquid.In addition,the phenomenon of“trapped air”occurs during the flow process due to the irregular characteristics of the microchannel.This study lays a certain theoretical foundation for the research of microscopic flow behavior of the liquid in the rough contact interface,the friction and lubrication of the mechanical system,and the sealing mechanism. 展开更多
关键词 rough contact interface fluid flow topography evolution MICROCHANNEL in-situ observation
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Bioinspired micro/nanostructured surfaces prepared by femtosecond laser direct writing for multi-functional applications 被引量:16
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作者 Yiyuan Zhang yunlong jiao +5 位作者 Chuanzong Li Chao Chen Jiawen Li Yanlei Hu Dong Wu Jiaru Chu 《International Journal of Extreme Manufacturing》 2020年第3期42-62,共21页
manufacturing of biomimetic micro/nanostructures due to its specific advantages including high precision,simplicity,and compatibility for diverse materials in comparison with other methods(e.g.ion etching,sol-gel proc... manufacturing of biomimetic micro/nanostructures due to its specific advantages including high precision,simplicity,and compatibility for diverse materials in comparison with other methods(e.g.ion etching,sol-gel process,chemical vapor deposition,template method,and self-assembly).These biomimetic micro/nanostructured surfaces are of significant interest for academic and industrial research due to their wide range of potential applications,including self-cleaning surfaces,oil-water separation,and fog collection.This review presents the inherent relationship between natural organisms,fabrication methods,micro/nanostructures and their potential applications.Thereafter,we throw a list of current fabrication strategies so as to highlight the advantages of FLDW in manufacturing bioinspired microstructured surfaces.Subsequently,we summarize a variety of typical bioinspired designs(e.g.lotus leaf,pitcher plant,rice leaf,butterfly wings,etc)for diverse multifunctional micro/nanostructures through extreme femtosecond laser processing technology.Based on the principle of interfacial chemistry and geometrical optics,we discuss the potential applications of these functional micro/nanostructures and assess the underlying challenges and opportunities in the extreme fabrication of bioinspired micro/nanostructures by FLDW.This review concludes with a follow up and an outlook of femtosecond laser processing in biomimetic domains. 展开更多
关键词 femtosecond laser direct writing multiscale micro/nanostructures extreme fabrication bioinspired applications
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飞秒激光诱导钛表面可控微纳结构用于水下气泡操纵
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作者 张亦元 焦云龙 +4 位作者 陈超 胡衍雷 李家文 肖轶 吴东 《科学通报》 EI CAS CSCD 北大核心 2019年第12期1296-1302,共7页
针对典型金属材料钛,利用自主搭建的飞秒激光振镜扫描加工系统,加工了具有特定形貌特征的多尺度微纳结构.在此基础上对多尺度微纳结构的可逆润湿性及水下气泡操纵特性进行了实验探究,并从微观界面化学的角度阐释了可逆润湿性的调谐机理... 针对典型金属材料钛,利用自主搭建的飞秒激光振镜扫描加工系统,加工了具有特定形貌特征的多尺度微纳结构.在此基础上对多尺度微纳结构的可逆润湿性及水下气泡操纵特性进行了实验探究,并从微观界面化学的角度阐释了可逆润湿性的调谐机理.研究结果表明:在飞秒激光烧蚀挤压作用下,钛表面诱导的多尺度微纳结构对原始表面的润湿性具有放大效应,固液接触角减小,水下气泡接触角增大;在辅助加热条件下,固液接触角增大,水下气泡接触角同时减小,气泡在表面完全铺展;随后将超疏水表面置于紫外灯下曝光,多尺度微纳结构上的液体接触角又开始减小,并最终实现了超疏水到超亲水性以及水下超亲气到超疏气的可逆调谐.另外,液体接触角与水下气泡接触角的可逆调谐特性呈现相反的变化趋势,这与固液气三相接触线的移动机制密切相关.本文对实现钛表面微纳结构设计与调控,提高具有可逆润湿性的金属表面在水下气泡操纵与收集,以及污水处理等领域的应用都具有重要意义. 展开更多
关键词 飞秒激光 多尺度微纳结构 超疏水 可逆润湿性 气泡操纵
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