干燥和液体介质中微物体操作的比较

2005 International Symposium on Computational Intelligence in Robotics and Automation Pub Date : 2005-06-27 DOI:10.1109/CIRA.2005.1554360

M. Gauthier, B. L. Walle, C. Clévy

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引用次数: 31

摘要

在亚毫米物体的操作中，附着力(毛细力、拉离力和范德华力)和静电力影响着微物体的行为。当微物体浸没在液体介质中时，这些力显著减小。因此，微组装任务在水下比在空气中更容易完成。因此，液体介质中微物体装配自动化的研究是一个很有前途的课题。本文介绍了干式和浸没式显微操作的主要区别。给出了介质对静电力、牵引力和水动力的影响。黏附扰动在液体中显著减少，流体动力有利于限制微物体的最大速度。描述了一些比较实验微操作，并证明了液体介质的兴趣。

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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Comparison between micro-objects manipulations in dry and liquid mediums

In the submillimetric objects manipulations, the adhesion (capillary force, pull-off force and Van-der-Waals force) and the electrostatic forces affect the behavior of the micro-objects. These forces decrease significantly when the micro-objects are submerged in a liquid medium. So a microassembly task is easier to perform in a submerged medium than in air. Consequently, the study of the micro-objects assembly automation in liquid mediums is a promising topic. This article introduces a review of the major differences between dry and submerged micromanipulation. The influences of the medium on electrostatic forces, pull-off force and hydrodynamic forces are presented. Adhesion perturbations are significally reduced in liquid and hydrodynamic forces are advantageous to limit the maximal micro-objects velocity. Some comparative experimental micromanipulations are described and prove the interest of the liquid medium.

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来源期刊

2005 International Symposium on Computational Intelligence in Robotics and Automation

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