纳米受限液体的共振剪切测量与摩擦分析

Hyomen Kagaku Pub Date : 2017-01-01 DOI:10.1380/JSSSJ.38.117

M. Mizukami, K. Kurihara

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摘要

我们开发的共振剪切测量(RSM)可以在表面分离距离(D)上评估从μm(实际上液体处于体态)到nm厚度的受限液体的流变学和摩擦学特性。因此，对于润滑层厚度在nm级，固体表面部分接触的边界润滑问题的研究尤为有用。本文介绍了RSM的原理和优点，综述了近年来RSM在纳米受限液体摩擦学方面的研究进展。4种体积黏度不同的苯醚润滑油与[C4mim] [NTf2]和[C4mim] [BF4]两种离子液体在云母表面之间的黏度显著增加，当间隙达到纳米厚度时，黏度与黏度的大小关系相反。水凝胶(双网凝胶)与二氧化硅球的摩擦主要由变形的凝胶-二氧化硅界面的弹性决定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Resonance Shear Measurement on Nano-Confined Liquids and Friction Analysis

The resonance shear measurement (RSM), which we developed, can evaluate the rheological and tribological properties of confined liquids at surface separation distances (D) from μm (practically liquids are in the bulk state) to nm thicknesses. Thus, it is especially useful for studying the boundary lubrication for which the lubricant layer becomes in the nm level thickness and the solid surfaces are supposed to be partially in contact. In this article, we describe the principle and advantages of RSM, and review our recent RSM studies on tribology of nano-confined liquids. Four phenyl ether lubricant oils with different bulk viscosity confined between mica surfaces, and two ionic liquids ([C4 mim] [NTf2]) and [C4mim] [BF4]) showed significant increase in viscosity and the their magnitude relation became reverse when the gap became in nanometer thick. Friction of hydrogel (double network gel) and silica sphere was dominated by the elasticity of the deformed gel-silica interface.

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Hyomen Kagaku

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