Manufacturing and Design: Understanding the Principles of How Things Are Made
Manufacturing and Design presents a fresh view on the world of industrial production: thinking in terms of both abstraction levels and trade-offs. The book invites its readers to distinguish between what is possible in principle for a certain process (as determined by physical law); what is possible in practice (the production method as determined by industrial state-of-the-art); and what is possible for a certain supplier (as determined by its production equipment). Specific processes considered here include metal forging, extrusion, and casting; plastic injection molding and thermoforming; additive manufacturing; joining; recycling; and more.

By tackling the field of manufacturing processes from this new angle, this book makes the most out of a reader's limited time. It gives the knowledge needed to not only create well-producible designs, but also to understand supplier needs in order to find the optimal compromise. Apart from improving design for production, this publication raises the standards of thinking about producibility.

- Emphasizes the strong link between product design and choice of manufacturing process

- Introduces the concept of a "production triangle" to highlight tradeoffs between function, cost, and quality for different manufacturing methods

- Balanced sets of questions are included to stimulate the reader's thoughts

- Each chapter ends with information on the production methods commonly associated with the principle discussed, as well as pointers for further reading

- Hints to chapter exercises and an appendix on long exercises with worked solutions available on the book's companion site: http://booksite.elsevier.com/9780080999227/

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Manufacturing and Design: Understanding the Principles of How Things Are Made
Manufacturing and Design presents a fresh view on the world of industrial production: thinking in terms of both abstraction levels and trade-offs. The book invites its readers to distinguish between what is possible in principle for a certain process (as determined by physical law); what is possible in practice (the production method as determined by industrial state-of-the-art); and what is possible for a certain supplier (as determined by its production equipment). Specific processes considered here include metal forging, extrusion, and casting; plastic injection molding and thermoforming; additive manufacturing; joining; recycling; and more.

By tackling the field of manufacturing processes from this new angle, this book makes the most out of a reader's limited time. It gives the knowledge needed to not only create well-producible designs, but also to understand supplier needs in order to find the optimal compromise. Apart from improving design for production, this publication raises the standards of thinking about producibility.

- Emphasizes the strong link between product design and choice of manufacturing process

- Introduces the concept of a "production triangle" to highlight tradeoffs between function, cost, and quality for different manufacturing methods

- Balanced sets of questions are included to stimulate the reader's thoughts

- Each chapter ends with information on the production methods commonly associated with the principle discussed, as well as pointers for further reading

- Hints to chapter exercises and an appendix on long exercises with worked solutions available on the book's companion site: http://booksite.elsevier.com/9780080999227/

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Manufacturing and Design: Understanding the Principles of How Things Are Made

Manufacturing and Design: Understanding the Principles of How Things Are Made

Manufacturing and Design: Understanding the Principles of How Things Are Made
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Manufacturing and Design: Understanding the Principles of How Things Are Made

Manufacturing and Design: Understanding the Principles of How Things Are Made

Overview

Manufacturing and Design presents a fresh view on the world of industrial production: thinking in terms of both abstraction levels and trade-offs. The book invites its readers to distinguish between what is possible in principle for a certain process (as determined by physical law); what is possible in practice (the production method as determined by industrial state-of-the-art); and what is possible for a certain supplier (as determined by its production equipment). Specific processes considered here include metal forging, extrusion, and casting; plastic injection molding and thermoforming; additive manufacturing; joining; recycling; and more.

By tackling the field of manufacturing processes from this new angle, this book makes the most out of a reader's limited time. It gives the knowledge needed to not only create well-producible designs, but also to understand supplier needs in order to find the optimal compromise. Apart from improving design for production, this publication raises the standards of thinking about producibility.

- Emphasizes the strong link between product design and choice of manufacturing process

- Introduces the concept of a "production triangle" to highlight tradeoffs between function, cost, and quality for different manufacturing methods

- Balanced sets of questions are included to stimulate the reader's thoughts

- Each chapter ends with information on the production methods commonly associated with the principle discussed, as well as pointers for further reading

- Hints to chapter exercises and an appendix on long exercises with worked solutions available on the book's companion site: http://booksite.elsevier.com/9780080999227/

Product Details

ISBN-13: 9780080999265
Publisher: Butterworth-Heinemann
Publication date: 03/03/2014
Sold by: Barnes & Noble
Format: eBook
Pages: 310
File size: 12 MB
Note: This product may take a few minutes to download.

About the Author

Erik Tempelman is an Associate Professor of Industrial Design Engineering at Delft University of Technology (NL). A respectedteacher, he is well-known for his style and enthusiasm for education and for always connecting manufacturing process choicesto key design requirements and optimal cost/value ratios. He has published on a range of subjects, from automotive materialsselection to engineering education.Hugh Shercliff is an Emeritus Associate Professor in Materials in the Department of Engineering at the University of Cambridge(UK). His research experience spanned all classes of engineering materials, with an emphasis on process modelling applied tothe forming and joining of light alloys. He is co-author with Michael Ashby and David Cebon of Materials: Engineering, Science, Processing and Design, Fourth Edition (Butterworth-Heinemann, 2018), and Introduction to Materials Science and Engineering (Butterworth-Heinemann, 2023).Bruno Ninaber van Eyben graduated with distinction in the design of plastics and metals at the Maastricht Academy in 1971. Since then, he has designed many iconic products, from coins to the gavel used by the Dutch Parliament. Today, he divides his time between his own Studio Nanaber and a part-time professorship at Delft University of Technology, Industrial Design Engineering.

Table of Contents

- Introduction

- Product Disassembly Studies

- Shape Casting of Metals

- Sheet Metal Forming

- Extrusion of Metals

- Forging of Metals

- Machining

- Injection Molding of Thermoplastics

- Thermoforming

- Resin Transfer Molding

- Additive Manufacturing

- Joining and Assembly

- None of the Above

- Recycling

- Manufacturing Process Choice

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From the Publisher

An introduction to manufacturing processes emphasizing the relationship between product design and manufacturing method.

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Related Subjects

Science & Technology
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Industrial Engineering & Materials Science
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Science & Technology
Engineering
Industrial Engineering & Materials Science
Manufacturing - General & Miscellaneous

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