Robotic industrialization : automation and robotic technologies for customized component, module, and building prefabrication (Record no. 70260)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 06358 a2200169 4500 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9781107076396 |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 741.60285 |
| Item number | BOC |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Bock, Thomas |
| 245 ## - TITLE STATEMENT | |
| Title | Robotic industrialization : automation and robotic technologies for customized component, module, and building prefabrication |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Name of publisher, distributor, etc | Cambridge University Press |
| Place of publication, distribution, etc | New York |
| Date of publication, distribution, etc | 2015 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | xxiv,238p. |
| 505 ## - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Contents<br/>Acknowledgements ix<br/>Glossary xiii<br/>1 Introduction 1<br/>1.1 OEM Model and Manufacturing Strategy 2<br/>1.2 Analysis Framework 4<br/>1.3 Organization of this Volume 5<br/>2 Automation and Robotics in Building Component Manufacturing 7<br/>2.1 Brickwork- and Ceramics-Based Components 8<br/>2.1.1 History and Techniques of Brick and Ceramic Parts Production 8<br/>2.1.2 Keys and Figures 9<br/>2.1.3 Classification of Ceramic Construction Elements and Brickwork Products 9<br/>2.1.4 Manufacturing Methods 10<br/>2.1.5 Possibilities for Industrial Customization 12<br/>2.1.6 End-Effectors and Automated Processes 12<br/>2.1.7 Factory Layouts 20<br/>2.1.8 Emerging Techniques in the Field 22<br/>2.1.9 End-of-Life Strategies 24<br/>2.2 Concrete-Based Components 25<br/>2.2.1 History and Techniques of Concrete Prefabrication 26<br/>2.2.2 Keys and Figures 27<br/>2.2.3 Classification of Precast Concrete Products 28<br/>2.2.4 Manufacturing Methods for Precast Concrete 30<br/>2.2.5 Possibilities for Industrial Customization 32<br/>2.2.6 Equipment and End-Effectors for Automated Production 33<br/>2.2.7 Factory Production Layouts 36<br/>2.2.8 Emerging Techniques in the Field 36<br/>2.2.9 End-of-Life Strategies 43<br/>2.3 Wood-Based Components 43<br/>2.3.1 History and Techniques of Wood/Timber Construction and Prefabrication 43<br/>2.3.2 Keys and Figures 44<br/>2.3.3 Classification of Products 44<br/>2.3.4 Manufacturing Methods 46<br/>2.3.5 Possibilities for Industrial Customization 47<br/>2.3.6 End-Effectors and Automated Processes 49<br/>2.3.7 Factory Production Layouts 52<br/>2.3.8 Emerging Techniques in the Field of Timber Prefabrication 52<br/>2.3.9 End-of-Life Strategies 54<br/>2.4 Steel-Based Components 54<br/>2.4.1 History and Techniques of Steel Production 54<br/>2.4.2 Keys and Figures 55<br/>2.4.3 Classification of Products 55<br/>2.4.4 Manufacturing Methods: Steel Elements 57<br/>2.4.5 Possibilities for Industrial Customization 60<br/>2.4.6 End-Effectors and Automated Processes 61<br/>2.4.7 Factory Production Layouts 62<br/>2.4.8 Emerging Techniques in the Field 63<br/>2.4.9 End-of-Life Strategies 63<br/>3 Building Module Manufacturing 66<br/>4 Comparison of Large-Scale Building Manufacturing in Different Countries 72<br/>4.1 Germany 73<br/>4.1.1 Wood-Based Housing Prefabrication in Germany 73<br/>4.1.2 Steel-Based Building Prefabrication in Germany 76<br/>4.2 United Kingdom 82<br/>4.2.1 History 82<br/>4.2.2 General Overview 83<br/>4.2.3 Companies 84<br/>4.2.4 Manufacturing Methods 87<br/>4.2.5 Conclusion 87<br/>4.3 Spain 88<br/>4.3.1 History 88<br/>4.3.2 General Overview 88<br/>4.3.3 Companies 88<br/>4.3.4 Manufacturing Methods 88<br/>4.3.5 Conclusion 89<br/>4.4 China 89<br/>4.4.1 History 89<br/>4.4.2 General Overview 89<br/>4.4.3 Companies 89<br/>4.4.4 Manufacturing Method 91<br/>4.4.5 Conclusion 92<br/>Large-Scale Building System Manufacturing in Japan 93<br/>5.1 Background, Development, and Strategy of the Industry 94<br/>5.1.1 Overview Companies (Turnover, Output, Employees, Prices, Factories) 94<br/>5.1.2 Japan's Prefabrication Industry Today and Tomorrow 96<br/>5.1.3 Karakuri Technology Diffusion in Japan 98<br/>5.1.4 Influences of Local and Cultural Specifics and Disasters 99<br/>5.1.5 Roots in Chemicals, Electronics, and the Automotive Industry 101<br/>5.1.6 Drivers for Prefabrication in Japan 103<br/>5.1.7 First Approaches to Mass Production: Premos Home 104<br/>5.1.8 Sekisui Heim's Ml 107<br/>5.1.9 From Japan's Traditional Organizational Culture towards TPS and Toyota Home 109<br/>5.1.10 Automated and Robotized Production as Sales Argument 110<br/>5.1.11 Sekisui Heim - ERP Systems for the Control of Increasing Complexity 111<br/>5.1.12 Timeline of Evolution of Prefabrication in Japan 112<br/>5.2 Robot-Oriented Design and Management Strategies Used in the Japanese Prefabrication Industry 116<br/>5.2.1 The Idea of Robot-Oriented Design and Management 116<br/>5.2.2 Complementarity as a Key Element in the Success of Automated Prefabrication in Japan 116<br/>5.2.3 Robotic Logistics-Oriented Design 117<br/>5.2.4 Robotic Assembly-Oriented Design 118<br/>5.2.5 Degree of Structuring/Automation of Off-Site and On-Site Environments 119<br/>5.2.6 OEM-like Integration Structure 121<br/>5.2.7 Modular Coordination 121<br/>5.2.8 Control of Variation by Platform- and Same-Parts Strategies 121<br/>5.2.9 Linking of Customer and Manufacturing System 122<br/>5.2.10 Innovation and R&D Capability as Key Elements of the Business Strategy 125<br/>5.2.11 Performance Multiplication Effect 126<br/>5.3 The Manufacturing Process 128<br/>5.3.1 Product Variety and Types of Prefabrication 129<br/>5.3.2 Production Process Explained by Sekisui's and Toyota's Unit Method 129<br/>5.3.3 Factory Layouts and Process Design Strategies 135<br/>5.4 Analysis of Selected Companies and Their Manufacturing Systems 148<br/>5.4.1 Sekisui House (Fully Panelized Steel Kit) 149<br/>5.4.2 Daiwa House (Steel Frame Combined with Panels) 159<br/>5.4.3 Pana Home (Steel Panels Combined with Steel Components) 162<br/>5.4.4 Sanyo Homes Corporation (Steel Frame Combined with Panels) 166<br/>5.4.5 Asahi Kasei - Hebel House Homes (Steel Frame Combined with Aerated Concrete Panels) 168<br/>5.4.6 Misawa Homes Sub- and Mini-Assembly Units (Wood Panels) 171<br/>5.4.7 Mitsui Home (Wood Panels) 174<br/>5.4.8 Tama Home (Wooden Frame Combined with Panels) 176<br/>5.4.9 Muji House (Wooden Frame Combined with Panels) 181 <br/>5.4.10 Sekisui Heim (Steel Units) 185<br/>5.4.11 Toyota Home (Steel Units) 198 <br/>5.4.12 Misawa Homes Hybrid (Steel Units) 201<br/>5.4.13 Sekisui Heim Two-U Home (Wood Units) 206 <br/>5.5 Evolving Tendencies in the Evolution of the Japanese Prefabrication Industry 207 <br/>5.5.1 Advanced Product Service Systems 208 <br/>5.5.2 Prefabrication Industry as Part of a Large-Scale Disaster Management Strategy 211<br/>5.5.3 Extending the Value Chain through the Development of Prefabricated, Sustainable High-Tech Settlements 216<br/>5.5.4 Reverse Innovation: Mass-Customized Housing Production as a Prototype for Future Manufacturing Systems 222<br/>References 225<br/>Index 233 |
| 700 ## - ADDED ENTRY--PERSONAL NAME | |
| Personal name | Linner, Thomas |
| 890 ## - Country | |
| Country | USA |
| 891 ## - Topic | |
| Topic | FD |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Source of classification or shelving scheme | Dewey Decimal Classification |
| Withdrawn status | Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Collection code | Withdrawn status | Home library | Current library | Shelving location | Date acquired | Source of acquisition | Cost, normal purchase price | Total Checkouts | Total Renewals | Full call number | Barcode | Date last seen | Date last borrowed | Cost, replacement price | Price effective from | Koha item type |
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| Dewey Decimal Classification | Faculty of Design | CEPT Library | CEPT Library | General | 02/12/2022 | amazon.in | 3874.00 | 2 | 3 | 741.60285 BOC | 024340 | 16/01/2023 | 04/01/2023 | 3874.00 | 02/12/2022 | Book |