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Addresses fundamentals and advanced topics relevant to the behavior of materials under in-service conditions such as impact, shock, stress and high-strain rate deformations. Deals extensively with materials from a microstructure perspective which is the future direction of research today.
Includes numerous examples and problems for student practice, this textbook is ideal for courses on the mechanical behaviour of materials taught in departments of mechanical engineering and materials science.
Taking a unique materials science approach, this text introduces students to the basic concepts and applications of materials and biomedical engineering and prepares them for the challenges of the new interdisciplinary field of biomaterials science. Split into three sections - Basic Biology Principles, Biological Materials, and Bioinspired Materials and Biomimetics - it presents biological materials along with the structural and functional classification of biopolymers, bioelastomers, foams, and ceramic composites. More traditional biomimetic designs such as Velcro are then discussed in conjunction with new developments that mimic the structure of biological materials at the molecular level, mixing nanoscale with biomolecular designs. Bioinspired design of materials and structures is also covered. Focused presentations of biomaterials are presented throughout the text in succinct boxes, emphasising biomedical applications, whilst the basic principles of biology are explained, so no prior knowledge is required. The topics are supported by approximately 500 illustrations, solved problems, and end-of-chapter exercises.
From 2014-2015, Marc Andre Meyers embarked on a thousand-kilometer expedition on the Parecis Plateau and down the River of Doubt in Brazil, accompanied by two Brazilian military officers, Cols. Hiram and Angonese, and by Jeffrey Lehmann. Their route retraced the steps of Teddy Roosevelt and Rondon a century earlier. Meyers's objectives in this book are fourfold: to present a travelogue of his journey, to recount the history of the Roosevelt-Rondon expedition, to relate descriptions made by the members of the original exploration to demonstrate how the region has been changed by a century of human presence, and to study the wildlife along the river. Using mules for transportation on land and ...
An understanding of the mechanical behavior of materials is crucial to the success of many technological endeavors, yet few researchers master both mechanics and materials science. This unique volume helps bridge the important gap between the two disciplines. Bringing together contributions by some of the foremost authorities in these fields, this practical work introduces materials scientists to the quantitative aspects of analysis and computation, and members of the mechanics community to the tools and applications of materials science and testing and characterization methods. The authors present diverse methodologies, practices, and nomenclature-pointing out the many shared and related co...
A ruthless mining company's greed threatens a Yanomami Indian village as a guerrilla leader's daughter vows to carry on his legacy in the adventure novel Yanomami. Berkeley student Natasha Chauny returns to Colombia's San Vicente del Caguan to pay respects to her father, Comandante Paulo, after he's assassinated. She reads his journals, which describe Paulo's disenchantment with the FARC guerrilla movement and his newly discovered dedication to the Amazon Indians. After visiting her father's former comrades, Natasha stops at a nearby Yanomami village bordering Brazil. Her visit coincides with a mining company's plot to displace the Indians and mine a deposit of cassiterite worth millions of ...
This edition has been greatly enlarged and updated to provide both scientists and engineers with a clear and comprehensive understanding of composite materials. In describing both theoretical and practical aspects of their production, properties and usage, the book crosses the borders of many disciplines. Topics covered include: fibres, matrices, laminates and interfaces; elastic deformation, stress and strain, strength, fatigue crack propagation and creep resistance; toughness and thermal properties; fatigue and deterioration under environmental conditions; fabrication and applications. Coverage has been increased to include polymeric, metallic and ceramic matrices and reinforcement in the form of long fibres, short fibres and particles. Designed primarily as a teaching text for final-year undergraduates in materials science and engineering, this book will also interest undergraduates and postgraduates in chemistry, physics, and mechanical engineering. In addition, it will be an excellent source book for academic and technological researchers on materials.
This textbook describes the physics of the plastic deformation of solids at high temperatures. It is directed at geologists or geophysicists interested in the high-temperature behaviour of crystals who wish to become acquainted with the methods of materials science in so far as they are useful to earth scientists. It explains the most important models and recent experimental results without losing the reader in the primary literature of materials science. In turn the book deals with the essential solid-state physics; thermodynamics and hydrostatics of creep; creep models and their applications in the geological sciences; diffusion creep; superplastic deformation and deformation enhanced by phase transformations. Five concluding chapters give experimental results for metals, ceramics and minerals. There are extensive bibliographies to aid further study.
This is a textbook on the mechanical behavior of materials for mechanical and materials engineering. It emphasizes quantitative problem solving. This new edition includes treatment of the effects of texture on properties and microstructure in Chapter 7, a new chapter (12) on discontinuous and inhomogeneous deformation, and treatment of foams in Chapter 21.
This textbook is intended for a one-semester course in corrosion science at the graduate or advanced undergraduate level. The approach is that of a physical chemist or materials scientist, and the text is geared toward students of chemistry, materials science, and engineering. This textbook should also be useful to practicing corrosion engineers or materials engineers who wish to enhance their understanding of the fundamental principles of corrosion science. It is assumed that the student or reader does not have a background in electrochemistry. However, the student or reader should have taken at least an undergraduate course in materials science or physical chemistry. More material is prese...