Biomimetics : nature-inspired design and innovation / Sandy B Primrose.
By: Primrose, S. B [author.]
Language: English Publisher: Hoboken, NJ : Wiley-Blackwell, 2020Description: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781119683346; 1119683343; 9781119683315; 1119683319; 9781119683360; 111968336XSubject(s): BiomimeticsGenre/Form: Electronic books.DDC classification: 570.1/5195 LOC classification: QP517.B56Online resources: Full text available at Wiley Online Library Click here to view| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
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COLLEGE LIBRARY | COLLEGE LIBRARY | 570.15195 P9354 2020 (Browse shelf) | Available | CL-51213 |
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| 570.10 K281 2002 Making sense of life : explaining biological development with models, metaphors, and machines / | 570.113 L8294 2014 Logical Modeling of Biological Systems / | 570.15118 Al568 2012 Mathematical models in biology : an introduction / | 570.15195 P9354 2020 Biomimetics : nature-inspired design and innovation / | 570.28 J71 2012 Practical skills in biology / | 570.285 G1223 2021 Algorithms in bioinformatics : theory and implementation / | 570.285 Sy877 2017 Systems biology / |
Includes index.
Table of Contents
1 The Beginnings of Biomimetics 1
1.1 Early Attempts at Biomimicry: The Influence of Birds on the Development of Aircraft 3
1.2 The Fathers of Modern Biomimetics: Percy Shaw and George de Mestral 4
Relevant Innovations Described in Other Chapters 6
Note 6
Suggested Reading 7
2 Transport, Motion, and Energy 9
2.1 Birds and Bullet Trains 9
2.2 More Owl-Inspired Noise Reduction 13
2.3 Humpback Whales and Wind Turbines 14
2.4 Fish Shoals and Wind Farms 16
2.5 Liquid Movement in Nature: The Importance of Spirals 17
2.6 A Tree-Inspired Wind Turbine 20
2.7 More Fishy Developments 22
2.8 A Fishy Failure: The Boxfish Car 22
2.9 Fuel Efficiency Inspired by Sharks 24
2.10 Using Biology to Counteract Biofouling 25
2.11 The New Generation of Ornithopters 28
Relevant Innovations Described in Other Chapters 30
Note 30
Suggested Reading 30
3 Colour and Light 31
3.1 Photonic Biomimicry 36
3.2 Structure Can Influence Light Output 38
3.3 Cephalopods and Camouflage 39
3.4 Photonic Cooling 43
3.5 Biomimetic Antireflective Coatings 46
3.6 A Novel Glass Inspired by Spiders 47
Relevant Innovations Described in Other Chapters 49
Suggested Reading 49
4 The Built Environment 51
4.1 Cooling Buildings the Termite Way 51
4.2 Functional Structures Inspired by Nature 55
4.3 Self-Cleaning Surfaces 59
4.4 Self-Healing Concrete 63
4.5 New Building Materials 64
4.6 A Sunshade Modelled on Trees 65
4.7 Solar Ivy 66
4.8 The Future: Fully Responsive Buildings 67
Relevant Innovations Described in Other Chapters 68
Note 68
Suggested Reading 68
5 Smart Materials 71
5.1 Self-Cleaning Materials 71
5.1.1 Reducing Bacterial Growth Without Disinfectants 71
5.1.2 Pitcher Plants and Non-stick Surfaces 74
5.2 Novel Adhesives 76
5.2.1 Novel Glues Inspired by Marine Animals 76
5.2.2 Hierarchical Steels Modelled on Byssal Threads 78
5.2.3 Glues from Terrestrial Slugs 79
5.2.4 Gecko-Inspired Dry Adhesives 81
5.3 Self-Healing Materials 83
5.4 Novel Textiles 85
5.4.1 Smart Textiles that Respond to their Surroundings 85
5.4.2 A Polar Bear-Inspired Material for Heat Insulation 86
5.4.3 Safety Helmets Inspired by Woodpeckers 86
Relevant Material in Other Chapters 87
Note 87
Suggested Reading 88
6 Smart Devices 91
6.1 Burrowing Robots Based on Razor Clams 91
6.2 Novel Sensors 92
6.2.1 Bioinspired Underwater Pressure Sensors 92
6.2.2 Crack-Based Strain Sensors 93
6.2.3 Ice Plants and Actuators 94
6.3 Passive Water Collection 96
6.3.1 Inspiration from the Namib Desert Beetle 96
6.3.2 Collecting Water with Spiders’ Webs 98
6.3.3 Cactus-Inspired Water Collection 100
6.4 Insects and Origami 100
6.5 Mosquito Bites and Injection Needles 103
Suggested Reading 104
7 The Influence of Biology on Computer Science 107
7.1 Genetic Algorithms 108
7.2 Swarm Intelligence 110
7.3 Human Swarming 112
Suggested Reading 113
8 The Future of Biomimetics 115
Suggested Reading 116
Index 117
"At its simplest, biomimetics is the design and production of materials, structures, and systems that are modelled on biological entities and processes. The concept of biomimetics stems from the realisation that microbes, plants and animals have been continuously evolving to cope with environmental and other challenges. They already have solved design challenges associated with vision, movement in diverse environments, temperature control, and detection of predators and/or prey in myriad ways over millions of years of evolution, providing rich opportunities for development of biomimetic and bioinspired materials. The diversity in form and function of living things is such that they have evolved solutions to most of the challenges that face humans today"-- Provided by publisher.
About the Author
SANDY B. PRIMROSE, MBE PHD, works as a consultant helping early-stage companies in the healthcare field. He has spent his professional life as a biologist, initially in academia and then as a senior manager in pharmaceutical, diagnostic, and life science companies. He has also worked with various government departments on topics such as the detection of food fraud and the safety of genetically engineered foods. Dr. Primrose has written a number of books, including Principles of Gene Manipulation, Molecular Biotechnology, and Genomics: Applications in Human Biology, among others.
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