Product Description

Manufacturing Engineering and Technology describes both time-tested and modern methods of manufacturing engineering materials.

Product Details

• Amazon Sales Rank: #2584397 in Books
• Published on: 1992-01
• Original language: English
• Number of items: 1
• Binding: Hardcover
• 1150 pages

From the Inside Flap
Preface

The field of manufacturing engineering and technology continues to advance rapidly, transcending disciplines and driving economic growth. This challenging and broad topic has continued to incorporate new concepts at an increasing rate, making manufacturing a dynamic and exciting field of study. In preparing this fourth edition, our most important goal throughout has been to provide a comprehensive state-of-the-art textbook on manufacturing, which also encompasses the additional aims of motivating and challenging students.

As in previous editions, the text presents topics with a balanced coverage of relevant fundamentals and real-world practices, so that the student develops an understanding of the important and often complex interrelationships among the many technical and economic factors involved in manufacturing.

This new edition basically follows the same introductory nature, format, organization, and balance as the third edition. It has retained its emphasis on (a) the influence of materials and processing parameters in understanding manufacturing processes and operations; (b) design considerations, product quality, and manufacturing cost factors; and (c) the domestic and global competitive context of each manufacturing process and operation, highlighted with illustrative examples. STUDY AIDS Presentation of each topic within a larger context of manufacturing engineering and technology, using extensive schematic diagrams and flowcharts. Emphasis on the practical uses of the concepts and information presented. Analogies, discussions, and problems designed to stimulate the student's curiosity about consumer and industrial products and how they are manufactured. Extensive reference material, including numerous tables, illustrations, graphs, and bibliographies. Numerous illustrative examples and case studies to highlight important concepts and techniques. Tables comparing advantages and limitations of manufacturing processes. A summary, list of key terms, and concise description of current trends at the end of each chapter. WHAT IS NEW IN THIS EDITION Several new examples and case studies have been added. There are now a total of almost 2,200 questions and problems, about a quarter of them new to this edition. Summaries at the end of each chapter have been completely rewritten and expanded. The bibliographies at the end of each chapter have been thoroughly updated. More cross-references have been made throughout the text to other sections and chap ters in the book. New or expanded topics include the following:

Abrasive belts; microreplication Atomic force microscope Biodegradable plastics Bundle drawing Carbon foam Chemical mechanical polishing Coatings Compliant end effector Conductive graphite fibers Deburring Diamond-like carbon coating Die failures Die manufacturing methods Electrically conducting adhesives Friction stir welding Hexapod machine tools ISO 14000 standard Joining plastics Laser interferometry Laser peening Linear motor drives for machine tools Microencapsulated powders Microgram carbides Micromachining Nanofabrication Nanomaterials Nanopowders Octree representation Overmolding Plastics, common trade names Porous aluminum Product liability examples Pulsed electrochemical machining QS 9000 standard Rapid prototyping Reflow soldering Robustness Rotary ultrasonic machining Superconductor processing Taguchi loss function Thermal effects in machine tools Titanic: brittle fracture example Total productive maintenance Transfer/injection molding Water-jet peening Wave soldering

In response to comments and suggestions by numerous reviewers, several major and minor changes have also been made throughout the text. A page-by-page comparison with the third edition will show that literally thousands of changes have been made for improved clarity and completeness. AUDIENCE

As in the previous editions, this fourth edition has been written for students in mechanical, manufacturing, industrial, aerospace, and metallurgical and materials engineering programs. It is hoped that by reading and studying this book, students will come to appreciate the vital nature of manufacturing engineering as an academic subject that is as exciting, challenging, and important as any other engineering and technology discipline.

From the Back Cover

FEATURES/BENEFITS

• NEW—New chapter on Rapid Prototyping (Ch. 19).
• NEW—Every chapter has been reviewed and updated. Every bibliography has been revised, new examples from industry have been added, and over 30% of the problems are new.
• Superior use of analogies, discussions and problems.
• Motivates interest in the subject.
• Excellent overview of manufacturing concepts is provided with a balance of relevant fundamentals and real-world practice.
• Covers the latest technological advances—Such as abrasive machining, nanofabrication, rapid tooling and semisolid metalworking.
• Contains four kinds of EOC problems—Review Questions, Qualitative Problems, Quantitative Problems, and Synthesis and Design Problems.

About the Author

PROFESSOR SEROPE KALPAKJIAN has been teaching at the Illinois Institute of Technology since 1963. After graduating from Robert College (with High Honors), Harvard University, and the Massachusetts Institute of Technology, he joined Cincinnati Milacron, Inc., where he was a research supervisor in charge of advanced metal-forming processes. He has published numerous papers and is the author of several articles in encyclopedias and handbooks; he has also edited various volumes and serves on the editorial boards of several journals and the Encyclopedia Americana.

He is the author of three additional manufacturing books, two of which received the M. Eugene Merchant Manufacturing Textbook Award. He is a Life Fellow of the American Society of Mechanical Engineers, Fellow and Life Member of ASM International, and Fell of the Society of Manufacturing Engineers, and is a full member (Emeritus) of the International Institution for Production Engineering Research (CIRP). He is a founding member and a past president of the North American manufacturing Research Institution.

Professor Kalpakjian has received several awards: Citation by the Forging Industry Educational and Research Foundation for best paper (1966); Citation by the Society of Carbide and Tool Engineers (1977); The "Excellence in Teaching Award" from the Illinois Institute of Technology (1970); the "Centennial Medallion" by the American Society of Mechanical Engineers (1980); the International "Education Award" by the Society of Manufacturing Engineers (1989); and the Albert Easton White Distinguished Teacher Award by the American Society for Metals International (2000).

Dr. Steven R. Schmid is an Associate Professor in the Department of Aerospace and Mechanical Engineering at the University of Notre Dame, where he teaches and conducts research in manufacturing, machine design, and tribology. As the Director of the Manufacturing Tribology Laboratory at the university, he oversees industry and governmentally funded research on a wide variety of manufacturing topics, including tribological issues in rolling, forging and sheet metal forming, polymer processing, medical device design and manufacture, and nanomechanics.

He received his Bachelor's degree in Mechanical Engineering from the Illinois Institute of Technology (with Honors) and Master's and Ph.D. degrees, both in Mechanical Engineering, from Northwestern University. Dr. Schmid is the recipient of a National Science Foundation CAREERS Award and an ALCOA Foundation Young Faculty Award. He has been a leading proponent for the integration of research and engineering education; NSF has sponsored workshops on this issue for which he has served as head of the steering committee.

He is the author of over thirty technical papers in various journals, has edited three conference proceedings, has co-authored "Fundamentals of Machine Elements," and has contributed two chapters to the CRC "Handbook of Modern Tribology." He serves on the Tribology Division Executive Committee of the American Society of Mechanical Engineers, and has held officer positions in the Society of Manufacturing Engineers and the Society of Tribology and Lubrication Engineers. He is a registered Professional Engineer an a Certified Manufacturing Engineer.

Customer Reviews

Classic Manufacturing Technology Working Book [1989 ed]
This is one of 2 books that captures the essence of a manufacturing management (or industrial engineering) engineering undergraduate degree- the other being an operations management text from Ray Wild, Nigel Slack, or Laurie Mullins. To help get an idea of what being a manufacturing engineer involves, prospective students should envision a dose of intense team & individual industry-based change projects, and striving globally competitive companies to add "seasoning" to these books. The broad `technology' contents are useful for industry veterans, consultants, and undergraduate students alike, as well as being a good starting point for researchers.

Over 1000 pages of richly detailed and illustrated yet concise contents span:

* materials properties- metals, behaviour & testing, properties, alloys, production of steels, non-ferrous production, plastics, ceramics, and composites.

* metal casting processes and equipment- fundamentals, processes, and design & economics.

*forming and shaping processes and equipment- rolling, forging, extrusion and drawing, sheet-metal forming, powder metallurgy, forming & shaping plastic & composites, forming & shaping ceramics & glass.

* material removal processes and machines- cutting, tolls & fluids, round-shape processes, various-shape processes, machine tools and economics, abrasive processes & operations, and non-traditional processes.

* joining processes and equipment- oxyfuel & arc & resistance welding, solid-state welding, metallurgy, brazing/soldering & mechanical joining processes.

* surface technology- characteristics & measurement, tribology, surface treatment, fabrication of microelectronics,

* common aspects of manufacturing- metrology, testing and quality assurance, human factors and safety.

* manufacturing in a competitive environment- automation, integrated systems, competition and economics.

The strengths include the vast amount of detail, illustrations, references and exercises to embed learning; broadness yet correctness of content; and many examples of industrial application and usefulness for industry. An updated version, with further additions on latest technologies, process control, and systems analysis/simulation & change management, would address the only weakness of the text (the section on competitive environment manufacturing). Thoroughly recommended as a reference and how-to book in manufacturing (suspect latest version even better!)

[Refers to first edition 1989 ISBN 0201128497]

an excelent engineering refrence
this book contains all the information ever needed by a mechanical production engineer. it is a usful addition to all libararies.

An excellent introduction to the various man. processes
I used this book in a manufacturing engineering course at SUNY Stonybrook. Since graduating I now work as a process engineer, and I have found the book's content to be highly relevant to the field and I still use it as a reference guide to this day.