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3D manufacturing innovation : revolutionary change in Japanese manufacturing with digital data / Hiroshi Toriya; trad. Yukie Ito

Main Author Toriya, Hiroshi Secondary Author Ito, Yukie Country Japão. Publication Tokyo : Springer, cop. 2008 Description XVIII, 155 p. : il. ; 24 cm ISBN 978-1-84800-037-7 CDU 658.512.2 74.021.23
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Item type Current location Call number Status Date due Barcode Item holds Course reserves
Monografia Biblioteca da UMinho no Campus de Azurém
BPG 658.512.2 - T Available 431553

Licenciatura em Design de Produto Projeto - Produtos 1º semestre

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Enhanced descriptions from Syndetics:

For a company to survive in the manufacturing industry, it must not only accumulate light-weight 3D data, but also share this information within the company and with related companies as well as train key personnel. 3D Manufacturing Innovation introduces the best practices developed by Toyota, Sony, Nikon, Casio and other pioneers in the global engineering scene, providing the reader with invaluable tips for manufacturing innovation.

Table of contents provided by Syndetics

  • 1 Adoption of IT by Manufacturing Industry to Enhance Competitive Strength (p. 1)
  • 1.1 Tasks in Manufacturing and Ideal Uses of IT (p. 1)
  • 1.2 Current Situation of Use of IT in Manufacturing (p. 2)
  • 1.3 Strategies to Secure Competitive Advantage and Use of 3D Data (p. 5)
  • 1.4 Trends in Lightweight 3D Data Related Technologies (p. 7)
  • 2 Trend Toward Use of Lightweight 3D Data (p. 11)
  • 2.1 Designs Based on 3D CAD to Full Use of 3D Data (p. 11)
  • 2.2 Why Lightweight 3D Data, not CAD? (p. 13)
  • 2.2.1 Display of Very Large Data (p. 14)
  • 2.2.2 3D Use in Documents (p. 14)
  • 2.2.3 3D Use in Drawings (p. 15)
  • 2.3 Use of Lightweight 3D Data Throughout the Company (p. 16)
  • 3 SONY's Ideas on Expanding Lightweight 3D Data to Company-wide Use (p. 21)
  • 3.1 Use of 3D Data in Design and Manufacturing at SONY (p. 21)
  • 3.2 Introduction of Lightweight XVL 3D Data (p. 24)
  • 3.3 Construction of ""3D Data Information Distribution Platform"" (p. 25)
  • 3.3.1 Data Sharing (p. 27)
  • 3.3.2 Data Distribution and Management (p. 27)
  • 3.3.3 Management of Original Drawing Data (p. 27)
  • 3.4 Business Process Restructuring Using Lightweight 3D Data (p. 27)
  • 3.5 Future Plans (p. 30)
  • 4 Benefits of Lightweight 3D Data (p. 33)
  • 4.1 Use of XVL in Design Review (p. 34)
  • 4.2 3D Parts Lists (p. 38)
  • 4.3 3D Parts Catalogs (p. 40)
  • 4.4 Animated 3D Visual Manuals (p. 43)
  • 4.5 Sharing CAE Analysis Results (p. 46)
  • 4.6 Sharing CAT Measurement Data (p. 47)
  • 4.7 Collaborative Design Using Lightweight 3D Data (p. 49)
  • 5 Design Review in Body Design: Case Study of TOYOTA MOTOR CORPORATION (p. 51)
  • 5.1 Why is Design Review Necessary? (p. 51)
  • 5.2 Design Review Using XVL (p. 52)
  • 5.3 The Actual Design Review Process (p. 55)
  • 5.4 Applications and Development of Design Review (p. 56)
  • 5.5 Advantages and Disadvantages of 3D Design (p. 57)
  • 5.6 Two Goals of Using XVL (p. 58)
  • 6 NIKON: Use of 3D Data as a Communication Pipeline (p. 59)
  • 6.1 Environment of Semiconductor Fabrication Devices (p. 59)
  • 6.2 Design and Manufacturing Process Innovation with 3D Data (p. 60)
  • 6.3 Difficulties Using 3D Data in Downstream Processes (p. 63)
  • 6.4 XVL's Role as a Communication Pipeline (p. 63)
  • 6.5 Security: A Pending Task (p. 67)
  • 7 YAMAGATA CASIO: Digital Engineering Practiced at Injection Mold Plant and Transfer of Technological Information (p. 69)
  • 7.1 Digital Equipment Market (p. 69)
  • 7.2 3D CAD/CAM and Network (p. 70)
  • 7.3 Why 3D Design Alone is not Effective (p. 72)
  • 7.4 Ideals of Design and Mold Fabrication (p. 73)
  • 7.5 Introduction of Process Management System (p. 74)
  • 7.6 Changes in Information Transfer Media with Increased Use of 3D Design (p. 76)
  • 7.7 XVL-based Technical Information Distribution Key to Success (p. 78)
  • 8 ALPINE PRECISION: Report-less and Drawing-less in Mold Making (p. 81)
  • 8.1 Weapons for Global Expansion and Delivery Time Reduction (p. 81)
  • 8.2 Limitations of Business Activities Based on Drawings and Reports (p. 82)
  • 8.3 Use of 3D Data for Mold Design Review (p. 83)
  • 8.4 Company-wide Sharing of Design Information (p. 84)
  • 8.5 Review by Mold Manufacturing Department (p. 87)
  • 8.6 Application of 3D Data to Manuals (p. 89)
  • 9 TOKAI RIKA: Visualization of Manufacturing Information Mold Making Using 3D Work Specifications (p. 91)
  • 9.1 Tasks and Solutions in Mold-making Departments at TOKAI RIKA (p. 91)
  • 9.2 Using XVL and Advantages (p. 92)
  • 9.3 Using XVL in the Manufacturing Department (p. 95)
  • 9.4 How 3D Has Improved Operations at TOKAI RIKA (p. 96)
  • 9.5 From 2D Drawings to 3D Drawings (p. 97)
  • 10 CASIO: Creating Customer Manuals Using 3D Data (p. 99)
  • 10.1 After 3D Design Practice Started Kicking In (p. 99)
  • 10.2 e-Manual Project (p. 101)
  • 10.3 Driving Force Behind Use of 3D Data (p. 104)
  • 10.4 Online Data Reviews (p. 105)
  • 11 KVAL: 3D Information Sharing and Its Effects at a Middle-scale Firm (p. 109)
  • 11.1 Use of 3D Data for Maintenance of Complicated Machines (p. 109)
  • 11.2 Opening the Door Between Design and Manufacturing (p. 110)
  • 11.3 Use of 3D Data Between Manufacturing and Technical Support (p. 111)
  • 11.4 Future Plans: Aiming at 100% 3D (p. 113)
  • 12 MAN Nutzfahrzeuge AG: Promoting Company-wide Process Chain Using 3D Drawings (p. 115)
  • 12.1 Using 3D Data for Design, but 2D Drawings for Communication (p. 115)
  • 12.2 Aiming at 3D Communication Throughout the Whole Process Chain (p. 116)
  • 12.3 Selecting XVL for its Lightweight and Interactive Features (p. 117)
  • 12.4 Multi-use of XVL Centering Around Data Management Tools (p. 118)
  • 12.4.1 Internal Communication (p. 119)
  • 12.4.2 Communications with Suppliers (p. 119)
  • 12.4.3 Technical Illustrations (p. 119)
  • 12.4.4 Assembly Instructions (p. 120)
  • 12.4.5 Quality Assurance (p. 120)
  • 13 Using 3D Data Successfully (p. 121)
  • 13.1 Best Practices for Successful Use of 3D Data (p. 121)
  • 13.1.1 Design Review (DR) with Lightweight 3D (p. 122)
  • 13.1.2 Eliminating 2D Drawings and Reports (p. 122)
  • 13.1.3 Communicating with Lightweight 3D (p. 123)
  • 13.1.4 3D Documentation (p. 123)
  • 13.1.5 Sharing of 3D Data on CAE and CAT Systems (p. 124)
  • 13.2 Systems that Aid in Successful Use of 3D Data (p. 125)
  • 13.2.1 System for Storing 3D Data (p. 125)
  • 13.2.2 System for Ensuring Security (p. 126)
  • Appendix A Development Ideology (p. 129)
  • Appendix B Overview of XVL Products (p. 137)
  • Index (p. 153)

Author notes provided by Syndetics

Hiroshi Toriya is a founder of Lattice Technology, Inc. The company provides software for the creation, management and integration of usable, intelligent 3D content throughout the manufacturing enterprise.

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