The objectives of this book are twofold: 1. To provide a thorough examination of the materials science of cellulosic fibers with emphasis on the characterization of structure-property relations, and 2. To advance knowledge of how 10 best analyze cellulosic fibrous networks and composites, and, ultimately, engineer "novel" cellulose-based systems of superior performance and functionality. The design of new materials through the study of living systems, or bio-imitation. is burgeoning to become an established field, generally referred to as biomimetics. The latter. as with materials science, in general. prominently features multi-disciplinarily where new developments in mathematics, physics, chemistry and engineering continue to inspire novel areas of research and development. The book is structured in five chapters which provide a sequential treatment of the running Theme: deformation mechanics and the physical. morphological and mechanical characterization of native cellulose fibers networks and composites. The heart of the book is Chapter 3. Damage Accumulation in Fibers, which treats the experimental methodology for fatigue testing of single fibers and the engendered results. In-depth examinations of the morphology, structure and chemical composition of native cellulose fibers, and the mechanics of de formation in these natural composite fibers are proffered in Chapters 1 and 2, respectively. The fourth chapter, Fractal Simulation of Crack Propagation, presents a fractal-based approach to modeling damage accumulation in materials. Fractals lend themselves well to modeling such modeling-oriented phenomena as crack propagation and fracture. The last chapter, Fibrous Structures: Networks and Composites, comprises analytical approaches for handling networks and composites.
Author: Wadood Hamad Year: 2002 Number of Pages: 239 Size: 16,5 X 24 cm Publisher: Kluwer Binding: Paperback ISBN: 0-7923-7593-9
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