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Surface Tension in Microsystems

Engineering Below the Capillary Length

  • Book
  • © 2013

Overview

Editors:
  1. Pierre Lambert

    1. BEAMS Department CP 165/56, Université libre de Bruxelles, Brussels, Belgium

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  • Summarizes most recent developments and research results in surface tension for emerging industrial products
  • Provides an original and comprehensive study of surface tension forces and torques including modeling, simulation, experimental set ups
  • Contains many case studies including gripping, actuation, capillary filling, sealing, self-assembly, adhesion for better understanding
  • Allows the direct use of the results for the simulation in nomograms and close packed formulas
  • Provides learning help in exercises
  • Includes supplementary material: sn.pub/extras

Part of the book series: Microtechnology and MEMS (MEMS)

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Table of contents (15 chapters)

  1. Front Matter

    Pages i-xxix
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  2. Physical Background

    1. Front Matter

      Pages 1-1
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    2. Physical Background

      • J.-B. Valsamis, M. De Volder, P. Lambert
      Pages 3-16

  3. Static Modelling of Capillary Forces and Torques

    1. Front Matter

      Pages 17-17
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    2. Axial Capillary Forces

      • Pierre Lambert, Jean-Baptiste Valsamis
      Pages 19-44

    3. Lateral Capillary Forces

      • Massimo Mastrangeli, Pierre Lambert
      Pages 45-69

    4. Capillary Torque

      • Atsushi Takei
      Pages 71-91

    5. Surface Tension Effects in Presence of Gas Compliance

      • Cyrille Lenders
      Pages 93-125

  4. Dynamic Modelling of Capillary Forces

    1. Front Matter

      Pages 127-127
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    2. Introduction

      • Jean-Baptiste Valsamis, Pierre Lambert
      Pages 129-136

    3. Axial Capillary Forces (Dynamics)

      • Jean-Baptiste Valsamis, Pierre Lambert
      Pages 137-177

    4. Lateral Capillary Forces (Dynamics)

      • Pierre Lambert
      Pages 179-193

    5. Conclusions

      • Pierre Lambert
      Pages 195-195

  5. Case Studies

    1. Front Matter

      Pages 197-197
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    2. Capillary Micro Motor

      • Atsushi Takei
      Pages 199-209

    3. Capillary Based Sealing

      • Michael De Volder
      Pages 211-226

    4. Surface Tension-Driven Self-Assembly

      • Massimo Mastrangeli
      Pages 227-253

    5. Surface Tension Driven Actuation

      • Ruba T. Borno, Michel M. Maharbiz
      Pages 255-277

    6. Capillary Forces in Atomic Force Microscopy and Liquid Nanodispensing

      • Thierry Ondarçuhu, Laure Fabié
      Pages 279-305

  6. Conclusions and Perspectives

    1. Front Matter

      Pages 307-307
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Keywords

About this book

This book describes how surface tension effects can be used by engineers to provide mechanical functions in miniaturized products (<1 mm). Even if precursors of this field such as Jurin or Laplace already date back to the 18th century, describing surface tension effects from a mechanical perspective is very recent.
The originality of this book is to consider the effects of capillary bridges on solids, including forces and torques exerted both statically and dynamically by the liquid along the 6 degrees-of-freedom.
It provides a comprehensive approach to various applications, such as capillary adhesion (axial force), centering force in packaging and micro-assembly (lateral force) and recent developments such as a capillary motor (torque).
It devises how surface tension can be used to provide mechanical functions such as actuation (bubble-actuated compliant table), sealing and tightness, energy harvesting, nanodispending.

Editors and Affiliations

  • BEAMS Department CP 165/56, Université libre de Bruxelles, Brussels, Belgium

    Pierre Lambert

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