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This book provides an overview of the range of applications of induction heating with methods by which conventional as well as special heating jobs can be designed around the capabilities of the process.
The second edition of the Handbook of Induction Heating reflects the number of substantial advances that have taken place over the last decade in theory, computer modeling, semi-conductor power supplies, and process technology of induction heating and induction heat treating. This edition continues to be a synthesis of information, discoveries, and technical insights that have been accumulated at Inductoheat Inc. With an emphasis on design and implementation, the newest edition of this seminal guide provides numerous case studies, ready-to-use tables, diagrams, rules-of-thumb, simplified formulas, and graphs for working professionals and students.
Based on the remarkable discoveries of the fathers of electromagnetism, induction heating and melting became one of the most advanced methods of material production, modification and manufacturing. Industries that intensively use induction heating include steel, automotive, machinery, aerospace, electronics, crystal growth and some others. New applications are emerging in food and packaging industries, and even in medicine. But who invented induction heating and when did it happen? Various significant developments and methods that played a big role in induction technique are almost forgotten or at least not known to modern engineers. Knowledge of the experience of the previous generations, especially of the works of the pioneers, can reveal many interesting ideas, which were abandoned at that time but could be practical today with more advanced materials, components and technologies. Knowledge of successes and failures of others will help to avoid mistakes and foresee future ways of induction technology expansion. The goal of this book is not to give an accurate chronological list of main events and achievements, but to show dynamics of technology and illustrate it with examples, multiple pictures and references. In July 2006 the world induction community lost one of its most distinguished members - Professor Alfred M�hlbauer-outstanding scientist, engineer, teacher and relentless promoter of Induction Technology. This book is his last imposing and great project, which was completed by his colleagues and friends.
Practical Induction Heat Treating, Second Edition is a quick reference source for induction heaters. This book ties-in the metallurgy, theory, and practice of induction heat treating from a hands-on explanation of what floor people need to know. This book includes practical tables and process analysis of induction heating.
This book provides a comprehensive overview of the main electrical technologies for process heating, which tend to be treated separately in specialized books. Individual chapters focus on heat transfer, electromagnetic fields in electro-technologies, arc furnaces, resistance furnaces, direct resistance heating, induction heating, and high-frequency and microwave heating. The author highlights those topics of greatest relevance to a wide-ranging teaching program, and at the same time offer a detailed review of the main applications of the various technologies. The content represents a synthesis of the extensive knowledge and experience that the author has accumulated while researching and teaching at the University of Padua’s Engineering Faculty. This text on industrial electroheating technologies is a valuable resource not only for students of industrial, electrical, chemical, and material science engineering, but also for engineers, technicians and others involved in the application of electroheating and energy-efficient industrial processes.
Reviewing an extensive array of procedures in hot and cold forming, casting, heat treatment, machining, and surface engineering of steel and aluminum, this comprehensive reference explores a vast range of processes relating to metallurgical component design-enhancing the production and the properties of engineered components while reducing manufacturing costs. It surveys the role of computer simulation in alloy design and its impact on material structure and mechanical properties such as fatigue and wear. It also discusses alloy design for various materials, including steel, iron, aluminum, magnesium, titanium, super alloy compositions and copper.
An Emerging Tool for Pioneering Engineers Co-published by the International Federation of Heat Treatment and Surface Engineering.Thermal processing is a highly precise science that does not easily lend itself to improvements through modeling, as the computations required to attain an accurate prediction of the microstructure and properties of work