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Capillary Forces in Microassembly

- Modeling, Simulation, Experiments, and Case Study

af Pierre Lambert

indgår i Microtechnology and MEMS serien

Capillary Forces in Microassembly af Pierre Lambert
Bag om Capillary Forces in Microassembly

Capillary Forces in Microassembly discusses the use of capillary forces as a gripping principle in microscale assembly. Clearly written and well-organized, this text brings together physical concepts at the microscale with practical applications in micromanipulation. Throughout this work, the reader will find a review of the existing gripping principles, elements to model capillary forces as well as descriptions of the simulation and experimental test bench developed to study the design parameters. Using well-known concepts from surface science (such as surface tension, capillary effects, wettability, and contact angles) as inputs to mechanical models, the amount of effort required to handle micro-components is predicted. These developments are then applied in a case study concerning the pick and place of balls in a watch ball bearing. Researchers and engineers involved in micromanipulation and precision assembly will find this a highly useful reference for microassembly system design and analysis.

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  • Sprog:
  • Engelsk
  • ISBN:
  • 9781441943828
  • Indbinding:
  • Paperback
  • Sideantal:
  • 263
  • Udgivet:
  • 12. februar 2010
  • Udgave:
  • 12007
  • Vægt:
  • 444 g.
  • 8-11 hverdage.
  • 7. december 2024
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Capillary Forces in Microassembly discusses the use of capillary forces as a gripping principle in microscale assembly. Clearly written and well-organized, this text brings together physical concepts at the microscale with practical applications in micromanipulation. Throughout this work, the reader will find a review of the existing gripping principles, elements to model capillary forces as well as descriptions of the simulation and experimental test bench developed to study the design parameters. Using well-known concepts from surface science (such as surface tension, capillary effects, wettability, and contact angles) as inputs to mechanical models, the amount of effort required to handle micro-components is predicted. These developments are then applied in a case study concerning the pick and place of balls in a watch ball bearing.
Researchers and engineers involved in micromanipulation and precision assembly will find this a highly useful reference for microassembly system design and analysis.

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