固液界面润湿性对面接触乳化液成膜特性的影响  被引量：2

作　　者：刘玉健 韩素立 郭峰 邵晶[1,2] 栗心明 LIU Yujian;HAN Suli;GUO Feng;SHAO Jing;LI Xinming(School of Mechanical&Automotive Engineering,Qingdao University of Technology,Qingdao 266520,China;Key Lab of Industrial Fluid Energy Conservation and Pollution Control,Ministry of Education,Qingdao University of Technology,Qingdao 266520,China)

机构地区：[1]青岛理工大学机械与汽车工程学院,青岛266520 [2]青岛理工大学工业流体节能与污染控制教育部重点实验室,青岛266520

出　　处：《中国表面工程》2023年第1期135-144,共10页China Surface Engineering

基　　金：国家自然科学基金(52175173,51605239);山东省重点研发计划(2019GGX101014);山东省高等学校青创科技支持计划(2019KJB010)资助项目

摘　　要：乳化液广泛应用于机械加工装备,在不同润湿性界面下的摩擦润滑机制亟待明晰.通过涂镀疏油层AF(氟改性有机基团,主要成分为[CF(CF_(3))CF_(2)O]x(CF_(2)O)y)和FAS(C_(13)H_(13)F_(17)O_(3)Si)对轴承钢滑块进行修饰,采用光干涉法测量不同润湿性(AF、FAS、Steel)界面乳化液膜厚度.结果表明:界面润湿性不同导致乳化液膜厚发生较大变化,同卷吸速度下AF表面膜厚最高,Steel表面次之,FAS表面膜厚最低.稀释前乳化液原液成膜能力与其在入口处所受Laplace压力正相关;稀释后乳化液油水两相存在竞争吸附行为,乳化液成膜厚度受水相将油相从固体表面分离所做黏附功影响.结合光致荧光法和固水油三相黏附功共同分析界面润湿性对乳化液成膜的影响,认为涂镀AF后乳化液更易进入接触区.AF界面乳液池特性与油膜厚度的关系,证明了疏油表面可以具有较好的成膜能力.Emulsion are widely used in mechanical processing equipment.However,their friction and lubrication mechanisms at different wettability interfaces still need to be clarified.The film formation properties of emulsions on different wettability surfaces were studied using a micro-slider on a rotating disc oil-film measurement system in conformal contact.The wettability of the slider working surface was changed by applying oleophobic layers of AF([CF(CF_(3))CF_(2)O].(CF_(2)O))and FAS(C_(13)H_(13)F_(17)O_(3)Si).The emulsion film thicknesses of the AF,FAS and unmodified steel surfaces were measured by optical interferometry.The test results showed that differences in interfacial wettability led to a significant change in the thickness of the emulsion film.At the same entrainment speed,the oil film thickness at the AF interface was higher than that of the steel surface,whereas the film thickness of the FAS surface was the lowest.The emulsion film thickness of the AF surface with different concentrations tends to be constant at a high speed.Low-viscosity emulsions require a higher entrainment speed to achieve the same film thickness.A positive correlation exists between the film thickness and viscosity on both the steel and FAS surfaces.To explore the reasons for the different film thicknesses of the emulsions on different wettability surfaces,the emulsion was fluorescently treated with R6G at a concentration of 0.5 mmol/L.The pool distribution of the emulsion stock solution was determined by fluorescence microscopy.The cross-sections of the reservoir characteristics along the entrainment direction speed of the interfacial emulsions with different wettabilities were extracted.The emulsion formed a curved surface at the entrance of the contact zone.Different surface wettabilities resulted in different curvatures of the liquid surface.The radius of curvature of the liquid surface formed by the emulsion on the surface after the application of the FAS coating was the largest,followed by the steel surface,with the smallest on

关 键 词：流体动压润滑 乳化液 光干涉法 表面修饰 膜厚 

分 类 号：TH117[机械工程—机械设计及理论]