Overview

Master the next generation of bio-inspired manufacturing by learning to harness the self-assembly and hierarchical power of structural proteins to create adaptive, high-performance materials. Over the past few decades, significant attention has been devoted to the self-assembly of structural proteins, which form intricate hierarchical materials combining exceptional mechanical, chemical, and transport properties. This highly regulated process spans both nano- and macroscales, making these materials especially attractive for the development of integrated, adaptive systems in bio-inspired manufacturing. Parallel advances in materials development and their application in bio-inspired devices have further accelerated progress in this field. This book explores the revolutionary potential of biomimicry in the manufacturing industry. By drawing inspiration from nature’s time-tested designs, this book presents innovative approaches that enhance production efficiency, sustainability, and adaptability. It showcases how biological principles can be applied to optimize manufacturing processes, reduce waste, minimize energy consumption, and create resilient systems capable of adjusting to dynamic environments. Through real-world examples and case studies, it demonstrates the transformative power of bio-inspired solutions in industries ranging from automotive and aerospace to consumer goods and renewable energy. Designed for engineers, researchers, and industry leaders, this book serves as a comprehensive guide to understanding and implementing bio-inspired techniques within modern manufacturing systems. It bridges the gap between cutting-edge research and practical applications, providing actionable insights that can be integrated into existing production environments. Readers will find the volume: Introduces the power of nature to drive sustainable and efficient manufacturing processes; Explores how bio-inspired systems can reduce waste, energy consumption, and operational costs; Discusses innovative design principles that foster adaptability and resilience in manufacturing; Provides insights into cutting-edge technologies inspired by biological processes to enhance production. Audience Bio-Inspired Manufacturing Systems will appeal to engineers, manufacturers, industrial designers, sustainability experts, and researchers in both academia and industry. It is particularly relevant for professionals in fields like mechanical engineering, materials science, and environmental engineering, as well as those working in manufacturing operations, supply chain management, and innovation. The book targets individuals and organizations committed to integrating sustainable, efficient, and adaptable systems into their manufacturing processes.

Full Product Details

Author:   Jagadeesha T. (National Institute of Technology Calicut, India) ,  Sandip Kunar (Aditya Engineering College, India)
Publisher:   John Wiley & Sons Inc
Imprint:   Wiley-Scrivener
ISBN:  

9781394408337

ISBN 10:   1394408331
Pages:   304
Publication Date:   03 June 2026
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
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Table of Contents

Preface xv Acknowledgments xvii 1 Introduction to Bio-Inspired Devices: Design, Manufacture, and Application 1 2 Bio-Inspired Manufacturing and Fabrication Processes 31 3 Bio-Inspired Computation: Leveraging Ant Behavior for Smart Algorithm Design 57 4 Bio-Inspired Fabrication for Sustainable Water Scarcity Solutions: Learning from Nature 85 5 Biomimetic Bone Implant Design: Materials, Manufacturing, and Modeling 109 6 Gecko-Inspired Adhesives: A Multiscale Approach to Biomimetic Adhesion and Applications 135 7 Manufacturing Shark Skin-Inspired Swimwear with Enhanced Fluid Dynamics and Performance 163 8 Spider Silk-Inspired Ropes and Fibers: From Nature’s Design to Artificial Production 185 9 Biomimetic Design and Fabrication of Hummingbird-Like Micro Unmanned Aerial Vehicles 209 10 Biomimicry in Automotive Design: Nature-Inspired Innovations for Efficiency, Performance, and Sustainability 239 Bibliography 267 Index 271

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Author Information

Jagadeesha T., PhD is an Associate Professor in the Mechanical Engineering Department at the National Institute of Technology in Calicut, Kerala, India with more than twenty-five years of experience. He has more than 75 publications in national and international journals and conferences, several books and book chapters, and four patents. His research interests include advanced machining, additive manufacturing, fluid power control, advanced materials, and vibration and noise control. Sandip Kunar, PhD is an Associate Professor in the Department of Mechanical Engineering at Aditya University, Surampalem, Andhra Pradesh, India. He has published more than 60 research papers in various reputed international journals and national and international conference proceedings, 55 book chapters, and edited at least 20 books. His research interests include non-conventional machining processes, micromachining processes, advanced manufacturing technology, and industrial engineering.

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