Stimuli-responsive Actuating Materials for Micro-robotics (eBook, ePUB) - Kwan, Kenneth K. W.; Ngan, Alfonso H. W.
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  • Format: ePub

Stimuli-responsive Actuating Materials for Micro-Robotics examines the latest stimuli-responsive actuating materials with high potential for applications in micro-robotics. The material science, functionalities and performance, and synthesis of these materials are reviewed. Then the common enabling technologies for material and signal integration such as 3/4D printing and interface engineering, chemo-mechanics modelling of the materials are discussed. Finally there is a chapter that looks at the prospects of materials for micro-robotics including case studies for specific applications such as…mehr

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Produktbeschreibung
Stimuli-responsive Actuating Materials for Micro-Robotics examines the latest stimuli-responsive actuating materials with high potential for applications in micro-robotics. The material science, functionalities and performance, and synthesis of these materials are reviewed. Then the common enabling technologies for material and signal integration such as 3/4D printing and interface engineering, chemo-mechanics modelling of the materials are discussed. Finally there is a chapter that looks at the prospects of materials for micro-robotics including case studies for specific applications such as self-folding origami robots and robots for micro-surgery.

Stimuli-Responsive Actuating Materials for Micro-Robotics is suitable for researchers and practitioners working in the subject areas of materials science and engineering.

  • Examines high-performance stimuli-responsive actuating materials for micro-robotics applications
  • Discusses common enabling technologies and micro-robotics device construction, with a focus on integration of materials
  • Reviews the application prospects of material-driven micro-robots in micro-surgery and compact engineering

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Autorenporträt
Kenneth K.W. Kwan is a postdoctoral fellow in the Department of Mechanical Engineering at the University of Hong Kong (HKU). His research interests include actuating materials for artificial muscles. He obtained his bachelor's, master's, and PhD degrees in mechanical engineering from HKU in 2010, 2011, and 2016, respectively.