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Designed for students who have already taken an introductory course in metallurgy or materials science, this advanced text describes how structures control the mechanical properties of metals.
Physical metallurgy is one of the main fields of metallurgical science dealing with the development of the microstructure of metals in order to achieve desirable properties required in technological applications. Physical Metallurgy: Principles and Design focuses on the processing–structure–properties triangle as it applies to metals and alloys. It introduces the fundamental principles of physical metallurgy and the design methodologies for alloys and processing. The first part of the book discusses the structure and change of structure through phase transformations. The latter part of the books deals with plastic deformation, strengthening mechanisms, and mechanical properties as they relate to structure. The book also includes a chapter on physical metallurgy of steels and concludes by discussing the computational tools, involving computational thermodynamics and kinetics, to perform alloy and process design.
* Covers all aspects of physical metallurgy and behavior of metals and alloys. * Presents the principles on which metallurgy is based. * Concepts such as heat affected zone and structure-property relationships are covered. * Principles of casting are clearly outlined in the chapter on solidification. * Advanced treatment on physical metallurgy provides specialized information on metals.
This fifth edition of the highly regarded family of titles that first published in 1965 is now a three-volume set and over 3,000 pages. All chapters have been revised and expanded, either by the fourth edition authors alone or jointly with new co-authors. Chapters have been added on the physical metallurgy of light alloys, the physical metallurgy of titanium alloys, atom probe field ion microscopy, computational metallurgy, and orientational imaging microscopy. The books incorporate the latest experimental research results and theoretical insights. Several thousand citations to the research and review literature are included. Exhaustively synthesizes the pertinent, contemporary developments within physical metallurgy so scientists have authoritative information at their fingertips Replaces existing articles and monographs with a single, complete solution Enables metallurgists to predict changes and create novel alloys and processes
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
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.
The most comprehensive single-source guide to the production of metals andminerals ever published. Despite the advent of "high-tech" materials such as polymers, advanced ceramics, and graphite and boron fibre, the age of metals is far from over. The development of new alloys continues to be driven by the need for better, cheaper, more versatile engineering materials. Physical Metallurgy Handbook is directed toward understanding metallic materials and their properties. The handbook looks at the mechanisms associated with basic phenomena in metals and alloys as well as the various manufacturing processes that are employed when working with these materials.
An introduction to steel products for industry professionals
This well-established book, now in its Third Edition, presents the principles and applications of engineering metals and alloys in a highly readable form. This new edition retains all the basic topics covered in earlier editions such as phase diagrams, phase transformations, heat treatment of steels and nonferrous alloys, shape memory alloys, solidification, fatigue, fracture and corrosion, as well as applications of engineering alloys. A new chapter on ‘Nanomaterials’ has been added (Chapter 8). The field of nano-materials is interdisciplinary in nature, covering many disciplines including physical metallurgy. Intended as a text for undergraduate courses in Metallurgical and Materials Engineering, the book is also suitable for students preparing for associate membership examination of the Indian Institute of Metals (AMIIM) and other professional examinations like AMIE.