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This reference documents ferrous alloy development as presented in Alloy Digest since 1952. Its concise data sheet summaries (which run about two pages) provide material composition, properties, heat treatment, fabrication characteristics, product forms, and applications. Following a general overvie
Corrosion failures of industrial components are commonly associated with welding. The reasons are many and varied. For example, welding may reduce the resistance to corrosion and environmentally assisted cracking by altering composition and microstructure, modifying mechanical properties, introducing residual stress, and creating physical defects. This book details the many forms of weld corrosion and the methods used to minimize weld corrosion. Chapters on specific alloys groups--carbon and alloy steels, stainless steels, high-nickel alloys, and nonferrous alloys--describe both general welding characteristics and the metallurgical factors that influence corrosion behavior. Corrosion problems associated with dissimilar metal weldments are also examined. Case histories document corrosion problems unique to specific industries including oil and gas, chemical processing, pulp and paper, and electric power. Special challenges caused by high-temperature environments are discussed. Commonly used methods to monitor weld corrosion and test methods for evaluation of intergranular, pitting, crevice, stress-corrosion cracking, and other forms of corrosion are also reviewed.
There are certain key alloys, stainless steels, nickel alloys and low alloy steels that are of paramount importance to the power generation, petrochemical and oil and gas industries. In one fully comprehensive guide, The alloy tree addresses the significance of such alloys and their role in these fundamental industries.The book begins with a short introduction and a master flow diagram, the "alloy tree, which shows the interrelationship between the main alloy groups. This is followed by ten chapters, each describing how stainless steels, nickel alloys and some low alloy steels have evolved from plain carbon steel. Adopting a narrative style, each chapter explains the background, development, key properties and applications of the alloy type. Abbreviations, specifications, product forms, alloying costs and types of corrosion are covered in the extensive appendices and a full bibliography and sources of further information conclude the book.The alloy tree is an important reference for Metallurgists and Materials Engineers and for those mechanical and chemical engineers who have an interest in the alloys used in their industries. - Illustrates the inter-relationship between the main alloy groups - Traces the evolution and development of key alloys - Comprehensive guide that looks at stainless steels, nickel alloys and low alloy steels and their role in the power generation, petrochemical and oil and gas industries
There are certain key alloys, stainless steels, nickel alloys, and low alloy steels that are of paramount importance to the power generation, petrochemical, and oil and gas industries. Addressing the significance of such alloys and their role in these fundamental industries, The Alloy Tree includes the following key features: * a short introduction and a master flow diagram that shows the interrelationship between the main alloy groups * a detailed exploration of how stainless steels, nickel alloys, and some low alloy steels have evolved from plain carbon steel * an explanation in each chapter of the background, development, key properties, and applications of the alloy type covered.
The History of Stainless Steel provides a fascinating glimpse into a vital material that we may take for granted today. Stainless steel, called "the miracle metal" and "the crowning achievement of metallurgy" by the prominent metallurgist Carl Zapffe, is a material marvel with an equally fascinating history of people, places, and technology. As stainless steel nears the hundredth anniversary of its discovery, The History of Stainless Steel by Harold Cobb is a fitting perspective on a vital material of our modern life. Aptly called the miracle metal by the renowned metallurgist Carl Zapffe, stainless steel is not only a metallurgical marvel, but its history provides an equally fascinating story of curiosity, competitive persistence, and entrepreneurial spirit. The History of Stainless Steel is the world's first book that captures the unfolding excitement and innovations of stainless steel pioneers and entrepreneurs. Many new insights are given into the work of famous pioneers like Harry Brearley, Elwood Haynes, and Benno Strauss, including significant technical contributions of lesser known figures like William Krivsky. This fascinating history of stainless steel exemplifies the great push of progress in the 20th Century. From the stainless steel cutlery of Brearley in 1913, stainless steel burst on the modern scene in many tangible ways. Excerpted text by William Van Alen, architect of the Chrysler Building, describes the early architectural use of stainless steel. Another historic application of stainless steel is the revolution in rail travel by the Edward G. Budd Company, which built the first light-weight stainless steel passenger trains--with an astounding 90% reduction in fuel costs. This remains recognized today as one of the technological marvels of the modern world. Harold Cobb, a metallurgist who has spent much of his career in the stainless steel industry, uncovers many interesting stories and insights, including a special perspective on the prominent role of stainless steel in the activities of emerging technical societies such as the American Society for Metals and the American Society for Testing and Materials. Amply illustrated and with a 78-page timeline, this publication truly evokes the inspirations created by and from stainless steel.
An indispensable resource for anyone wanting to create, maintain, improve, understand, or use the diverse information resources within a sci-tech library. Providing cutting-edge practices and tools in library and information science as well as a historical perspective on science and technology resources, Science and Technology Resources: A Guide for Information Professionals and Researchers begins with an overview of the nature of sci-tech literature, the information-seeking behavior of scientists and engineers, and an examination of the research cycle. Each of the 12 chapters focuses on a specific format, showcasing specific examples and representative resources in current practice. This practical guide will be invaluable to librarians, information specialists, engineering and science professionals, and students interested in acquiring a practical knowledge of science and technology resources. The comprehensive subject bibliographies provide a sci-tech library administrator with the resources to develop and maintain an effective science, technology, and engineering collection.
This book contains an overview of novel synthesis, characterization, and applications of nanomaterials. Based on an extensive state-of-the-art literature survey and results obtained from researches during the past years, this book presents techniques and special applications of classical and modern nanomaterials. This book reviews different nanomaterials, from the synthesis and characterization of diverse materials to modern applications such as viral detection, hyperthermia, thermoelectric, nano-coatings, electrochromic, pigments, among others. This book is aimed at students, researchers, and engineers who seek general scientific knowledge about nanomaterials with an application-oriented approach.
Metallic materials are used in many medical devices due to their high mechanical reliability and their excellent strength and toughness. They account for more than 70% of internally implantable devices (implants). This book helps understand the necessity and problems of metal materials used in medical applications. This book was written with the goal of helping students learn the essentials of metallic biomaterials and acquire knowledge that can be applied in a progressive manner. The target audience for this book are students, graduate students, engineers, medical doctors, and others who need knowledge about metallic biomaterials.
The text discusses both theoretical and technological aspects of the Industry 4.0–based manufacturing processes. It covers important topics such as additive manufacturing, laser-based manufacturing processes, electromagnetic welding and joining processes, green manufacturing processes, and friction welding processes. Illustrates sustainable manufacturing aspects in robotics and aerospace industries. Showcases additive manufacturing processes with a focus on innovation and automation. Covers environment-friendly manufacturing processes resulting in zero waste and conserves natural resources. Synergizes exploration related to the various properties and functionalities through extensive theoretical and experimental modeling. Discusses impact welding for joining of dissimilar materials. The text discusses the recent manufacturing techniques and methodologies such as impact welding for joining of dissimilar materials. It further covers techniques such as additive manufacturing and electromagnetic manu- facturing, resulting in minimum or negligible waste. The text elaborates important topics such as friction stir welding energy consumption analysis, and industry waste recycling for sustainable development. It will serve as an ideal reference text for senior undergraduate, graduate students, and researchers in the fields including mechanical engineering, aerospace engineering, manufacturing engineering, and production engineering.
Alloying: Understanding the Basics is a comprehensive guide to the influence of alloy additions on mechanical properties, physical properties, corrosion and chemical behavior, and processing and manufacturing characteristics. The coverage considers "alloying" to include any addition of an element or compound that interacts with a base metal to influence properties. Thus, the book addresses the beneficial effects of major alloy additions, inoculants, dopants, grain refiners, and other elements that have been deliberately added to improve performance, as well the detrimental effects of minor elements or residual (tramp) elements included in charge materials or that result from improper melting or refining techniques. The content is presented in a concise, user-friendly format. Numerous figures and tables are provided. The coverage has been weighted to provided the most detailed information on the most industrially important materials.