Brazing processes offer enhanced control, adaptability and cost-efficiency in the joining of materials. Unsurprisingly, this has lead to great interest and investment in the area. Drawing on important research in the field, Advances in brazing provides a clear guide to the principles, materials, methods and key applications of brazing.
Part one introduces the fundamentals of brazing, including molten metal wetting processes, strength and margins of safety of brazed joints, and modeling of associated physical phenomena. Part two goes on to consider specific materials, such as super alloys, filler metals for high temperature brazing, diamonds and cubic boron nitride, and varied ceramics and intermetallics. The brazing of carbon-carbon (C/C) composites to metals is also explored before applications of brazing and brazed materials are discussed in part three. Brazing of cutting materials, use of coating techniques, and metal-nonmetal brazing for electrical, packaging and structural applications are reviewed, along with fluxless brazing, the use of glasses and glass ceramics for high temperature applications and nickel-based filler metals for components in contact with drinking water.
With its distinguished editor and international team of expert contributors, Advances in brazing is a technical guide for any professionals requiring an understanding of brazing processes, and offers a deeper understanding of the subject to researchers and engineers within the field of joining.
Reviews the advances of brazing processes in joining materialsDiscusses the fundamentals of brazing and considers specific materials, including super alloys, filler metals, ceramics and intermetallicsBrazing of cutting materials and structural applications are also discussed

Fundamentals of Heat Exchanger Design, Second Edition builds upon the widely-used First Edition, a text often considered to be the most prominent single-volume heat exchanger text on the market. The new and improved Second Edition serves as an equally comprehensive resource, updated to suit the latest technologies and design methods being used in the Heat Exchanger field. Written by First-Edition author Dusan P. Sekulic, this text addresses the latest developments in the industry, including a brand-new chapter on the manufacturing of compact heat exchangers. After opening with a basic introduction to heat exchanger types and design methods, the book goes on to cover more specialized topics such as such as the design of recuperators and regenerators, pressure drop analysis, geometric properties, flow friction, fouling and corrosion, and more. With many significant revisions throughout, this new edition offers more streamlined content while maintaining the consistent, detailed coverage of the fundamentals of the topic that readers appreciated in the First Edition. These unique features position the Second Edition of Fundamentals of Heat Exchanger Design as the ideal text for both engineering professionals and advanced students alike.

This book is a unique, multidisciplinary effort to apply rigorous thermodynamics fundamentals, a disciplined scholarly approach, to problems of sustainability, energy, and resource uses. Applying thermodynamic thinking to problems of sustainable behavior is a significant advantage in bringing order to ill-defined questions with a great variety of proposed solutions, some of which are more destructive than the original problem. The articles are pitched at a level accessible to advanced undergraduates and graduate students in courses on sustainability, sustainable engineering, industrial ecology, sustainable manufacturing, and green engineering. The timeliness of the topic, and the urgent need for solutions make this book attractive to general readers and specialist researchers as well. Top international figures from many disciplines, including engineers, ecologists, economists, physicists, chemists, policy experts and industrial ecologists among others make up the impressive list of contributors.

This book is a unique, multidisciplinary, effort to apply rigorous thermodynamics fundamentals, a disciplined scholarly approach, to problems of sustainability, energy, and resource uses. Applying thermodynamic thinking to problems of sustainable behavior is a significant advantage in bringing order to ill defined questions with a great variety of proposed solutions, some of which are more destructive than the original problem. The articles are pitched at a level accessible to advanced undergraduates and graduate students in courses on sustainability, sustainable engineering, industrial ecology, sustainable manufacturing, and green engineering. The timeliness of the topic, and the urgent need for solutions make this book attractive to general readers and specialist researchers as well. Top international figures from many disciplines, including engineers, ecologists, economists, physicists, chemists, policy experts and industrial ecologists among others make up the impressive list of contributors. About the Authors Bhavik R. Bakshi holds a dual appointment as a Professor of Chemical and Biomolecular Engineering at The Ohio State University, and Vice Chancellor and Professor of Energy and Environment at TERI University, New Delhi. He is also the Research Director of the Center for Resilience at Ohio State. From 2006 to 2010, he was a Visiting Professor at the Institute of Chemical Technology in Mumbai, India. He has written over 100 refereed publications in areas such as Process Systems Engineering and Sustainability Science and Engineering. Timothy G. Gutowski is a Professor of Mechanical Engineering at the Massachusetts Institute of Technology, Cambridge, USA. He was the Director of MIT s Laboratory for Manufacturing and Productivity (1994-2004), and the Associate Department Head for Mechanical Engineering (2001-2005). From 1999 to 2001 he was the chairman of the National Science Foundation - Department of Energy panel on Environmentally Benign Manufacturing. He has written over 150 technical publications, and seven patents and patent applications. He is the editor of Advanced Composites Manufacturing (1997). Dusan P. Sekulic is a Professor of Mechanical Engineering at the University of Kentucky. He is a fellow of ASME. Dr. Sekulic is a consulting professor at the Harbin Institute of Technology, PR China. He is the author of over 150 refereed research publications, more than a dozen book chapters, and the author of the book Fundamentals of Heat Exchanger Design (jointly with R.K. Shah), published in English, and in Chinese. He is the editor of the books Advances in Brazing: Science, Technology and Applications and Fundamentals of Heat Exchanger Design (2003) co-edited with Ramesh K. Shah.