Industrial biomimetics
著者
書誌事項
Industrial biomimetics
Jenny Stanford Publishing, c2019
- : hardcover
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
Biomimetics is an innovative paradigm shift based on biodiversity for sustainability. Biodiversity is not only the result of evolutionary adaption but also the optimized solution of an epic combinatorial chemistry for sustainability, because the diversity has been acquired by biological processes and technology, including production processes, operating principles, and control systems, all of which differ from human technology. In the recent decades, biomimetics has gained a great deal of industrial interest because of its unique solutions for engineering problems.
In this book, researchers have contributed cutting-edge results from the viewpoint of two types of industrial applications of biomimetics. The first type starts with engineering tasks to solve an engineering problem using biomimetics, while the other starts with the knowledge of biology and its application to engineering fields. This book discusses both approaches. Edited by Profs. Masatsugu Shimomura and Akihiro Miyauchi, two prominent nanotechnology researchers, this book will appeal to advanced undergraduate- and graduate-level students of biology, chemistry, physics, and engineering and to researchers working in the areas of mechanics, optical devices, glue materials, sensor devices, and SEM observation of living matter.
目次
3D modeling of shark skin and prototype diffuser for fluid control. Friction control surfaces in nature ~Analysis of Firebrat Scales. Biomechnics and biomimetics I flying and swimming. Shape-tunable wrinkles can switch frictional properties. Self-lubricating Organogels : SLUGs. Bioinspired materials for thermal management applications. Strange wing folding in a rove beetle. Biotemplating Process for Electromagnetic Materials. The application of the structural color. Moth-eye type anti-reflection Films. Transparent superhydrophobic film created through biomimetics of lotus leaf and moth eye structures. Adhesion under Wet Conditions Inspired by Marine Sessile Organisms. Functional Analysis of Mechanical Design of the Cricket Wind-Receptor Hair. Echolocation of bats and dolphins and its application. The "NanoSuit (R)" preserves wet/living organisms for the observation of the high resolution in a scanning electron microscope.
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