3D Printing: A Revolutionary Process for Industry Applications
- Length: 220 pages
- Edition: 1
- Language: English
- Publisher: Woodhead Publishing
- Publication Date: 2022-06-15
- ISBN-10: 0323994636
- ISBN-13: 9780323994637
- Sales Rank: #0 (See Top 100 Books)
3D Printing: A Revolutionary Process for Industry Applications examines how some companies have already adopted 3D printing, gives guidance on critical areas such as manufacturing supply, and traces the lifecycle of 3D printing as well as cost drivers and influences. The author leverages his experience in leading engineering firms to bring together an industry-by-industry guide to the potentials of 3D printing for large-scale manufacturing and engineering. The book provides all the skills and insights that a Chief Engineer would need to address complex manufacturing problems in the real-world using 3D printing technology.
As 3D printing is a rapidly growing area with the potential to transform industries, the potential for large-scale adoption involves complex systems crossing engineering disciplines. In order to use 3D printing to solve manufacturing problems in this context, an array of expertise and knowledge about technology, suppliers, the uses of 3D printing by industry, 3D printing lifecycle and cost drivers must be assembled. This book accomplishes that by introducing 3D printing technology with specific references to 18 industry sectors.
Cover image Title page Table of Contents Copyright Preface Chapter 1. Introduction Chapter 2. 3-D printing in the aerospace industry 2.1. What 2.2. When 2.3. Where 2.4. Key benefits of additive technologies for aerospace manufacturing 2.5. Why 2.6. How 2.7. Who 2.8. 3-D bioprinting in space 2.9. Construction of structures using 3-D printing 2.10. Conclusion Chapter 3. 3-D printing of airplane parts 3.1. 3-D printing airplane parts 3.2. Advantages 3.3. Airplane parts 3.4. What 3.5. Where 3.6. Who 3.7. Why 3.8. When 3.9. How Chapter 4. 3-D printing in the auto industry 4.1. When: since when has 3-D printing been used in the auto industry 4.2. How: how has 3-D printing impacted the racing world? 4.3. What: what are the benefits of 3-D materials and technologies? 4.4. Why: why should automotive companies use 3-D technology? 4.5. Where: where is 3-D printing being used? 4.6. Who: who is getting the benefit from 3-D technology? Chapter 5. 3-D printing in the chemical industry 5.1. Introduction 5.2. What 5.3. When 5.4. Who 5.5. Where 5.6. How Chapter 6. 3-D printing in the construction industry 6.1. What? 6.2. Where? 6.3. When? 6.4. Why? 6.5. How? 6.6. Who? Chapter 7. 3-D printing in dental care 7.1. 3-D Introduction 7.2. How have dentists used 3-D printers? 7.3. Capabilities of 3-D printing in dentistry 7.4. Benefits of 3-D printing in dentistry 7.5. Use of 3-D printing technology in endodontics and periodontics 7.6. Advantages of 3-D printing technology in dentistry 7.7. Disadvantages of 3-D printing technology in dentistry Chapter 8. 3-D printing in the drone industry 8.1. What 8.2. Why 8.3. Where 8.4. When 8.5. How 8.6. Who 8.7. The specificities of the aeronautics sector 8.8. Conclusion Chapter 9. 3-D printing in education 9.1. What 9.2. Where 9.3. Who 9.4. When 9.5. Why 9.6. How 9.7. Conclusion Chapter 10. 3-D printing in the fashion industry 10.1. Introduction 10.2. What 10.3. When 10.4. Who 10.5. Where 10.6. How 10.7. Apparel: 3-D printing clothes by Danit Peleg 10.8. Jacket without seams 10.9. Jewelry example: nervous system bracelet 10.10. Footwear 10.11. Watches 10.12. Ornaments 10.13. Recent 3-D fashions 10.14. Annie Foo, original 3-D printed shoes 10.15. Anouk Wipprecht and her Proximity Dress 10.16. Ganit Goldstein, custom fashion 10.17. Iris Van Herpen, between 3-D printing and nature 10.18. Met Gala 2019, the presence of 3-D technologies 10.19. Why: importance and future Chapter 11. 3-D printing in the food industry 11.1. What 11.2. How 11.3. Why 11.4. Who 11.5. 3-D printing products reduce waste 11.6. Conclusion Chapter 12. 3-D printing in the footwear industry 12.1. What 12.2. When 12.3. Where 12.4. Who 12.5. Why 12.6. How Chapter 13. 3-D printing in healthcare 13.1. How 13.2. What 13.3. When 13.4. Where 13.5. How 13.6. Why is 3-D printing important in medicine? 13.7. Organ transplant 13.8. Surgical plan 13.9. Temperature and sterilization 13.10. Pointed equipment 13.11. Function 13.12. Porosity 13.13. Prosthetic structure 13.14. Medical intervention 13.15. Countless possibilities 13.16. Who 13.17. The case of Eric Moger 13.18. The case of Kaiba Gionfriddo Chapter 14. 3-D printing in the hearing aid industry 14.1. Introduction 14.2. What 14.3. Where 14.4. Who 14.5. Why 14.6. When 14.7. How 14.8. Conclusion Chapter 15. 3-D printing in the maritime industry 15.1. What 15.2. Prototypes, interiors, spare parts, tools 15.3. Large ship parts from industrial 3-D printers 15.4. When 15.5. Where 15.6. Who 15.7. Why 15.8. How Chapter 16. 3-D printing in the mechanics industry 16.1. What 16.2. Why 16.3. Where 16.4. When 16.5. Who 16.6. How Chapter 17. 3-D printing in the movie industry 17.1. Introduction 17.2. What 17.3. Why 17.4. When 17.5. Who 17.6. Where 17.7. How 17.8. Types of glasses for 3-D 17.9. Passive 3-D glasses (anaglyph lenses) Chapter 18. 3-D printing in the tool and die industries 18.1. How 18.2. Who 18.3. Why 18.4. When 18.5. Where 18.6. Advantages of 3-D printing in tool manufacturing 18.7. What Chapter 19. 3-D printing in the toy industry 19.1. What 19.2. When 19.3. Where 19.4. Who 19.5. How 19.6. 3-D printing still faces many technical challenges Chapter 20. Summary and conclusion 20.1. Summary 20.2. Conclusion Index
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