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Relating theory with practice to provide a holistic understanding of the subject and enable critical thinking, this book covers fundamentals of physical metallurgy, materials science, microstructural development, ferrous and nonferrous alloys, mechanical metallurgy, fracture mechanics, thermal processing, surface engineering, and applications. This textbook covers principles, applications, and 200 worked examples/calculations along with 70 MCQs with answers. These attractive features render this volume suitable for recommendation as a textbook of physical metallurgy for undergraduate as well as Master level programs in Metallurgy, Physics, Materials Science, and Mechanical Engineering. The text offers in-depth treatment of design against failure to help readers develop the skill of designing materials and components against failure. The book also includes design problems on corrosion prevention and heat treatments for aerospace and automotive applications. Important materials properties data are provided wherever applicable. Aimed at engineering students and practicing engineers, this text provides readers with a deep understanding of the basics and a practical view of the discipline of metallurgy/materials technology.
Materials science and engineering (MSE) contributes to our everyday lives by making possible technologies ranging from the automobiles we drive to the lasers our physicians use. Materials Science and Engineering for the 1990s charts the impact of MSE on the private and public sectors and identifies the research that must be conducted to help America remain competitive in the world arena. The authors discuss what current and future resources would be needed to conduct this research, as well as the role that industry, the federal government, and universities should play in this endeavor.
This new volume will help materials scientists and engineers fully comprehend the principles of optics and optical phenomena and effectively utilize them for the design and fabrication of optical materials and devices. Materials science is an interdisciplinary field at the intersection of various fields, such as metallurgy, ceramics, solid-state physics, chemistry, chemical engineering, and mechanical engineering. Thus, many physicists, chemists, and engineers also work in materials science. Many materials scientists generally do not have a strong background in optics, and this book aims to fill that gap. The volume explains the fundamentals of optics legibly to nonspecialists and presents theoretical treatments for a variety of optical phenomena resulting from light-matter interactions. It covers thin film optics, interference lithography, and metal plasmonics as practical applications of optics for materials research. Each chapter of the book has a problem and reference section to facilitate the reader’s understanding. The book is aimed at assisting materials scientists and engineers who must be aware of optics and optical phenomena. This book will also be useful as a textbook for students in materials science, physics, chemistry, and engineering throughout their undergraduate and early graduate years.
As product specifications become more demanding, manufacturers require steel with ever more specific functional properties. As a result, there has been a wealth of research on how those properties emerge during steelmaking. Fundamentals of metallurgy summarises this research and its implications for manufacturers.The first part of the book reviews the effects of processing on the properties of metals with a range of chapters on such phenomena as phase transformations, types of kinetic reaction, transport and interfacial phenomena. Authors discuss how these processes and the resulting properties of metals can be modelled and predicted. Part two discusses the implications of this research for improving steelmaking and steel properties.With its distinguished editor and international team of contributors, Fundamentals of metallurgy is an invaluable reference for steelmakers and manufacturers requiring high-performance steels in such areas as automotive and aerospace engineering. It will also be useful for those dealing with non-ferrous metals and alloys, material designers for functional materials, environmentalists and above all, high technology industries designing processes towards materials with tailored properties. - Summarises key research and its implications for manufacturers - Essential reading for steelmakers and manufacturers - Written by leading experts from both industry and academia
This unique and practical book provides quick and easy access to data on the physical and chemical properties of all classes of materials. The second edition has been much expanded to include whole new families of materials while many of the existing families are broadened and refined with new material and up-to-date information. Particular emphasis is placed on the properties of common industrial materials in each class. Detailed appendices provide additional information, and careful indexing and a tabular format make the data quickly accessible. This book is an essential tool for any practitioner or academic working in materials or in engineering.
This book describes the central aspects of diffusion in solids, and goes on to provide easy access to important information about diffusion in metals, alloys, semiconductors, ion-conducting materials, glasses and nanomaterials. Coverage includes diffusion-controlled phenomena including ionic conduction, grain-boundary and dislocation pipe diffusion. This book will benefit graduate students in such disciplines as solid-state physics, physical metallurgy, materials science, and geophysics, as well as scientists in academic and industrial research laboratories.
Modern metallurgy is a fascinating field of research, full of discoveries, commercial opportunities and industrial utility. Encyclopedia of Materials: Metals and Alloys is a new, multidisciplinary reference work offering a comprehensive coverage of this exciting area, and consolidating research activities in all experimental and theoretical aspects of metallic materials, intermetallic compounds, alloys, blends and composites. Key focus is on those aspects of the science of metals concerned with their manufacturing, processing and fabrication, the relationship between the macro/micro/nanostructures and properties (mechanical, chemical, electrical, electrochemical, magnetic and optical), industrial application, surface modification and functionalization of metals – and, importantly, resource and supply chain issues, and life-cycle and sustainability practices. This title provides users with a single and unique reference source, incorporating elements from many different disciplines. An invaluable addition to any reference library of engineers, chemists and physicists, both from industry and academia. Comprehensive and accessible - offers users a ‘one stop’ comprehensive resource, providing contemporary reviews of current metallurgy research, and an insight into the future direction of the field Clearly structured - meticulously organized, chapters are split into 13 sections on key topics and clearly cross-referenced to allow students, researchers, and professionals to find relevant information quickly and easily Multidisciplinary - chapters written by academics and practitioners from various fields and regions ensure that the knowledge within is easily understood by, and applicable to, a large audience Contemporary content - emphasis is given to clean energy, green transport, healthcare and next-generation manufacturing