Molecular behaviors in thin film lubrication——Part two: Direct observation of the molecular orientation near the solid surface 被引量：8

Molecular behaviors in thin film lubrication——Part two: Direct observation of the molecular orientation near the solid surface

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摘要 Over the past twenty years, thin film lubrication(TFL) theory has been used to characterize the molecular behaviors in lubrication films thinner than 100 nm, effectively bridging the gap between elastohydrodynamic lubrication and boundary lubrication. Unfortunately, to date, the TFL molecular model proposed in 1996 has not been directly proven by experimental detection. Herein, a method based on surface-enhanced Raman spectroscopy was developed to show both the packing and orienting of liquid molecules in the TFL regime. By trapping liquid crystal molecules between a structured silver surface and a glass surface, molecular ordering states dominated by shear effect and surface effect were successfully distinguished. A nanosandwich structure consisting of an adsorbed layer, an ordered-molecule layer, and a fluid layer was demonstrated. Molecule imaging in TFL was achieved. Our results illustrate the molecular behaviors and lubrication mechanism in nanoconfined films and facilitate the lubrication design of nanoelectromechanical and microelectromechanical systems. Over the past twenty years, thin film lubrication(TFL) theory has been used to characterize the molecular behaviors in lubrication films thinner than 100 nm, effectively bridging the gap between elastohydrodynamic lubrication and boundary lubrication. Unfortunately, to date, the TFL molecular model proposed in 1996 has not been directly proven by experimental detection. Herein, a method based on surface-enhanced Raman spectroscopy was developed to show both the packing and orienting of liquid molecules in the TFL regime. By trapping liquid crystal molecules between a structured silver surface and a glass surface, molecular ordering states dominated by shear effect and surface effect were successfully distinguished. A nanosandwich structure consisting of an adsorbed layer, an ordered-molecule layer, and a fluid layer was demonstrated. Molecule imaging in TFL was achieved. Our results illustrate the molecular behaviors and lubrication mechanism in nanoconfined films and facilitate the lubrication design of nanoelectromechanical and microelectromechanical systems.

作者 Ming GAO Haoyu LI Liran MA Yuan GAO Linwei MA Jianbin LUO

机构地区 State Key Laboratory of Tribology School of Metallurgy Engineering School of Materials Science and Engineering

出处《Friction》 SCIE CSCD 2019年第5期479-488,共10页 摩擦（英文版）

基金 financially supported by the National Natural Science Foundation of China(51305225,51527901)

关键词 THIN film LUBRICATION MOLECULAR BEHAVIORS NEMATIC liquid crystal surface-enhanced RAMAN spectroscopy LUBRICATION theory nanosandwich structure thin film lubrication molecular behaviors nematic liquid crystal surface-enhanced Raman spectroscopy lubrication theory nanosandwich structure

分类号 TH117 [机械工程—机械设计及理论]

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