项目名称: 聚电解质的受限界面吸附行为及其润滑特性研究
项目编号: No.51305459
项目类型: 青年科学基金项目
立项/批准年度: 2014
项目学科: 机械、仪表工业
项目作者: 郭岩宝
作者单位: 中国石油大学(北京)
项目金额: 25万元
中文摘要: 界面纳米效应不仅改变近壁面和限域空间内流体的流变特性,而且也在很大程度上决定着固液界面的吸附和粘滞阻力特性,进而影响微纳结构的运动阻力。本课题针对限域空间中的固液界面吸附和粘滞阻力特性,设计开发一种基于石英晶体微天平的微纳米受限结构以及固液界面特性测试装置。利用该受限装置研究针对不同聚电解质、溶液pH值、浓度、温度、电场下的聚电解质界面吸附行为;同时,研究受限聚电解质膜厚对近壁面层性质的影响;探索界面吸附行为的影响因素,揭示界面纳米效应对受限聚电解质界面吸附的作用机理;最后,研究界面吸附对于聚电解质润滑特性的影响及机理分析。本课题不仅对于受限固液界面实验研究方法的发展具有十分重要的意义,而且界面纳米效应对受限聚电解质界面吸附及润滑特性影响机理的研究对于控制微纳结构运动界面阻力、增强运动稳定性、提高系统使用寿命等都具有重要的现实意义。
中文关键词: 聚电解质;受限;界面吸附;润滑特性;纳米效应
英文摘要: The interfacial nano-size effects not only change the fluid rheological properties in near wall or confined space, but also decided the solid-liquid interface adsorption and viscous resistance characteristics in significant measure. This is important for the movement of the micro/nano structure. This research is forcus on the confined solid-liquid interface adsorption and viscous resistance characteristics to design a micro/nano-confined solid-liquid interface characteristic testing device based on quartz crystal micro balance (QCM).The interfacial adsorption of polyelectrolyte is measured used this confinement drive under different pH, ions concentration, tempreture and external electric fields. Furthermore, the effects of confined polyelectrolyte film thickness to the near wall layer are investigated. Explore influence factors of the confined interfacial adsorption behavior and reveal the interfacial nano-size effect on the polyelectrolyte molecular interfacial adsorption mechanism. Finally, the influence and mechanism analysis of confined interfacial adsorption of polyelectrolyte molecular for lubrication characteristics are discussed. This project is very important not only for the experimental research method development of confined solid-liquid interface, but also has important practical significance to c
英文关键词: polyelectrolyte;confinement;interfacial adsorption;lubrication properties;nano-size effects