Zhang / Jiang / Chen | Micro- and Nano-Bionic Surfaces | Buch | 978-0-12-824502-6 | sack.de

Buch, Englisch, 358 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 590 g

Zhang / Jiang / Chen

Micro- and Nano-Bionic Surfaces

Biomimetics, Interface Energy Field Effects, and Applications
Erscheinungsjahr 2021
ISBN: 978-0-12-824502-6
Verlag: William Andrew Publishing

Biomimetics, Interface Energy Field Effects, and Applications

Buch, Englisch, 358 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 590 g

ISBN: 978-0-12-824502-6
Verlag: William Andrew Publishing


Micro- and Nano-Bionic Surfaces: Biomimetics, Interface Energy Field Effects, and Applications synthesizes the latest research in bio-inspired surfaces and devices for tactile and flow field perception. The book provides solutions to common problems related to flow field/tactile perception, intelligent MEMS sensors, smart materials, material removal methods, cell/particle control methods, and micro-nano robot technology. With a heavy emphasis on applications throughout, the book starts by providing insights into biomimetic device design, outlining strategies readers can adopt for various engineering applications. From there, it introduces the controlling methods of smart materials, controlling methods from external energy input, and more.

Sections demonstrate how to solve problems of high efficiency, high quality, and low damage material removal for metals, composites, soft tissues, and other materials by applying bionic wave-motion surface characteristics. The latest theoretical and technical developments in field control methods applied to biological interfaces are also discussed, and the book concludes with a chapter on fabrication strategies to synthesize micro/nano functional particles based on bio-templates.
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Weitere Infos & Material


1. Characterization Methods of the Drag Reduction/Increase on the Biologic Micro/Nano Surface
2. Characterization of Natural Super-Slippery and Strong Attachment Surfaces
3. Electron and Ion Transport Theory at Micro/Nano Interface of Cells
4. Universality Analysis of the Biologic Micro/Nano Surface/Interface Energy Field Effect
5. Drag Increase in Micro/Nano-Bionic Surface Enhancing Force Perception
6. Bioinspired Drag Reduction Surface
7. Wave-Motion Wetting in Bionic Micro/Nano Interface for High-Efficient Machining
8. Bioinspired Functional Surfaces for Medical Devices
9. Biomimetic Modification of Cells for Enhanced Energy Field Effects
10. Engineering Analysis of the Manufacturing Technologies for the Bionic Micro/Nano Surface/Interface


Zhang, Deyuan
Deyuan Zhang is Professor and former director of the Department of Mechanical Engineering and Automation, Beihang University. His main research focus is on bionic-bio-manufacturing and ultrasonic processing technology. He is a sponsor member of the International Society of Bionic Engineering, director of Biological Manufacturing Branch, and committee director of Ultrasonic Machining from Non-traditional Machining Branch in the Chinese Mechanical Engineering Society (CMES). He has undertaken more than 10 key projects from the National 863 Program, the National Nature Science Foundation, and the General Armaments Department. He is also principle investigator of more than 20 major engineering projects from industrial enterprises. He has published more than 300 papers, including one in Nature of which he was the corresponding author, and filed more than 40 patents.

Jiang, Yonggang
Yonggang Jiang is Professor, School of Mechanical Engineering and Automation, Beihang University. His main research focus includes biomimetic perception and microelectromechanical sensor development. He is a member of the International Society of Bionic Engineering Youth Commission, a senior member of Chinese Society of Mechanical Engineering, and a senior member of Chinese Society of Micro-Nano Technology. He has published more than 40 SCI-indexed papers and filed more than 15 patents.

Zhang, Xiangyu
Xiangyu Zhang is a researcher at Beihang University who focuses on bionic/micro/nano manufacture and ultrasonic machining. Past projects include an innovative high-speed ultrasonic vibration cutting/extrusion method mainly applied in the machining of difficult-to-cut materials such as titanium and Inconel. Other work has included development of measurement methods for cutting force and cutting heat, as well as methods for cutting biological tissues using ultrasonic vibration.

Feng, Lin
Lin Feng is Associate Professor, Department of Mechanical Science and Engineering, Beihang University. Since 2015 he has also served as a researcher in the Department of Intelligent Transportation Systems at Nissan Motor, Japan. His research is mainly focused on micro- and nano-robotics and their application to micro- and nano-assembly, cell manipulation, bio-automation systems, medical robotic systems, micro- and nano-electro mechanical systems, and intelligent robot systems.

Cai, Jun
Jun Cai is Professor, School of Mechanical Engineering and Automation, Beihang University. His main research focus is on bionic micro/nano fabrication, multiscale fabrication, and bio-inspired structure and materials. He is one of the sponsor members of International Society of Bionic Engineering, senior member of Chinese Mehanical Engineering Society, member of American Society of Mechanical Engineering and was awarded the Outstanding Youth Foundation of Natural Science of China in 2013. He has undertaken more than 10 key projects from the National 863 Program, the National Natural Science Foundation, and the General Armaments Department. He has published more than 80 papers and filed more than 10 patents.

Chen, Huawei
Huawei Chen is Professor/Deputy Dean, School of Mechanical Engineering and Automation, Beihang University. His research interests include bio-inspired functional surfaces, micro/nano fabrication and micro/nano fluidics. He is the Leading Talent of Ten Thousand Plan, Outstanding Young Scientist Foundation of National Nature Science Foundation of China, and a JSPE Fellow. He has published more than 80 papers in renowned journals such as Nature, Nature Materials, Advanced Materials, and more.


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