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Attachment Devices of Insect Cuticle
In 1974 when I published my book, Biological Mechanism of Attachment, not many pages were required to report on the attachment devices of insect cuticles. As in most fields of research, our knowledge on this specific subject has simply exploded. Dr. Stanislav N. Gorb now describes the present day level of our knowledge, to which he has personally contributed so much, and a research team working on biological microtribology has gradually developed, also. With modern methods of measurement it is possible to enter the structure – function relationship much more deeply, even down to a molecular level, which was not possible two and a half decades ago. It is a well known fact that, in biology, the more sophisticated the measuring method, the greater the achievement of biological fundamental research, and its resulting evidence. Our knowledge remains at a certain level until new methods once more permit a forward leap. Biological knowledge develops in the form of a stepped curve rather than linear, as reflected in the studies carried out on the attachment devices of insect cuticles.
Biological Micro- and Nanotribology
By employing a combination of approaches from several disciplines the authors elucidate the principles of a variety of biomechanical systems that rely on frictional surfaces or adhesive secretions to attach parts of the body to one another or to attach organisms to a substrate. This account provides an excellent starting point for engineers and physicists working with biological systems and for biologists studying friction and adhesion. It will also serve as a valuable introduction for graduate students entering this interdisciplinary field of research.
Functional Surfaces in Biology
This book is devoted to the rapidly growing area of science dealing with structure and properties of biological surfaces in their relation to particular function(s). This volume, written by a team of specialists from different disciplines, covers various surface functions such as protection, defense, water transport, anti-wetting, self cleaning, light reflection and scattering, and acoustics. Because biological surfaces have a virtually endless potential of technological ideas for the development of new materials and systems, inspirations from biology could also be interesting for a broad range of topics in surface engineering.
Bio-Inspired Robotics
This book is a printed edition of the Special Issue "Bio-Inspired Robotics" that was published in Applied Sciences
Materials Design Inspired by Nature
The inner architecture of a material can have an astonishing effect on its overall properties and is vital to understand when designing new materials. Nature is a master at designing hierarchical structures and so researchers are looking at biological examples for inspiration, specifically to understand how nature arranges the inner architectures for a particular function in order to apply these design principles into man-made materials. Materials Design Inspired by Nature is the first book to address the relationship between the inner architecture of natural materials and their physical properties for materials design. The book explores examples from plants, the marine world, arthropods and bacteria, where the inner architecture is exploited to obtain specific mechanical, optical or magnetic properties along with how these design principles are used in man-made products. Details of the experimental methods used to investigate hierarchical structures are also given. Written by leading experts in bio-inspired materials research, this is essential reading for anyone developing new materials.
Evolution of Lightweight Structures
This volume contains studies on the evolution and function of lightweight constructions of planktonic and other organisms, and examples of how they can be used to create new solutions for radical innovations of lightweight constructions for technological application. The principles and underlying processes responsible for evolution and biodiversity of marine plankton organisms are highly relevant and largely unresolved issues in the field of marine science. Amongst the most promising objects for the study of evolution of stable lightweight constructions are marine organisms such as diatoms or radiolarians. Research in these fields requires interdisciplinary expertises such as in evolutionary modelling, paleontology, lightweight optimization, functional morphology, and marine ecology. Considerable effort and expert knowledge in production engineering or lightweight optimization is necessary to transfer knowledge on biogenic structures and evolutionary principles into new lightweight solutions. This book show methods and examples of how this can be achieved efficiently.
Hornyheads, Madtoms, and Darters
A collection of essays on nature, naturalists, and the natural history of fishes in central Appalachia. A nature lover’s paradise, central Appalachia supports a diversity of life in an extensive network of waterways and is home to a dazzling array of fish species. This book focuses not only on the fishes of central Appalachia but also on the fascinating things these fishes do in their natural habitats. An ecological dance unfolds from a species and population perspective, although the influence of the community and the ecosystem also figures in the text. Stuart A. Welsh’s essays link central Appalachian fishes with the complexities of competition and predation, species conservation, para...
Insect Ecomorphology
Insect Ecomorphology: Linking Functional Insect Morphology to Ecology and Evolution offers the most up-to-date knowledge and understanding of the morphology of insects and the functional basis of their diversity. This book covers the form and function of insect body structures synthesized with their physiological performance capabilities, biological roles, and evolutionary histories. Written by international experts, this book provides a modern outline of the topic, exploring the ecomorphology of functional systems such as insect feeding, locomotion, sensing, and reproduction. The combination of conceptual and review chapters, methodological approaches, and case studies enables readers to de...
Advances in Insect Physiology
Insects have much to offer when it comes to designing engineering solutions to problems, whether for robotics, aeronautics, computing or materials science. Insect Mechanics and Control, the first book ever published on this topic, bringing together world experts working at the interface between entomology, engineering and physics to showcase the exciting research in this rapidly growing field. The authors, applied mathematicians, physicists or quantitative biologists, provide coverage of their subjects in a way that uses the minimum necessary technical detail, making the subject accessible to biologists and their students who are not expert in the field. The book in turn provides a valuable compendium of biological information for physical scientists, thus promoting interchange between the biological and physical sciences.* Covers important problems in mechanics and control, by reference to extraordinary and fascinating insect examples * Written by experts, physicists, applied mathematicians and quantitative biologists* Offers a biological inspiration to physical scientists, from MEMS design to robotics* Provides a compelling example of integrative biology
Biomimetics
Nature is the world's foremost designer. With billions of years of experience and boasting the most extensive laboratory available, it conducts research in every branch of engineering and science. Nature's designs and capabilities have always inspired technology, from the use of tongs and tweezers to genetic algorithms and autonomous legged robots.
