Verfügbarkeit: Product design for modularity

Product design for modularity:

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Hauptverfasser:	Kamrani, Ali K. (VerfasserIn), Salhieh, Sa'ed M. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boston [u.a.] Kluwer Acad. Publ. 2000
Schlagworte:	Productieplanning Productontwikkeling Vormgeving Werktuigbouwkunde Flexible manufacturing systems Industrial design Modularity (Engineering)
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVIII, 203 S. graph. Darst.
ISBN:	0792385543

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MARC


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650		4	\|a Flexible manufacturing systems
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adam_text	Contents Contents vii List of Figures ix List of Tables xiii Preface xv Acknowledgements xix Chapter 1: Product Development Process: An Introduction 1 1. The Evolution of Product Development 1 2. Sequential Product Development 3 3. Simultaneous/Integrated Product Development 4 4. Generic Product Development Process 5 5. Product Development Categories 16 Chapter 2: Modular Design 19 1. Modularity Types 19 2. Modular Systems Characteristics 21 3. Modular Systems Development 25 4. Modularity Advantages 47 Chapter 3: Design for Modularity 49 1. Needs Analysis 51 2. Product Requirements Analysis 63 Contents I 3. Product/Concept Analysis 65 4. Product/Concept Integration 69 : 5. Case Study: Decomposition Analysis of a Four Gear Speed Reducer Design Based on the Methodology 73 Chapter 4: Design for Assembly 97 1. DFMA Methodology 97 2. Case Study: DFMA Analysis of a Fog Lamp Design 111 3. Summary and Conclusion 121 Chapter 5: Design for Manufacture and Template Based Process Planning 123 1. Geometric and Parametric Design 123 2. Group Technology (GT) 126 3. Design for Manufacture 129 4. Structure for a Template Based Process Planning System 134 5. APPENDIX A: Crankshaft Parametric File Structure and Listings 140 6. APPENDIX B:GD T Data File 147 7. APPENDIX C: Formulation Used for Material Removal 148 8. APPENDIX D: Sample Process Plan 162 Chapter 6: Flexible and Modular Cell Design 169 1. Traditional Manufacturing Systems—An Overview 170 2. Cellular Manufactuirng Systems 172 3. Cellular Manufacturing Systems Design 174 References 195 Index 201 List of Figures Figure 1. Design for Modularity Life Cycle xv Figure 1.1. Sequential Product Development 3 Figure 1.2. Simultaneous/Integrated Product Development 4 Figure 1.3. Product Development Process 5 Figure 1.4. Needs Recognition 6 Figure 1.5. Parametric Analysis Plot 7 Figure 1.6. Matrix Analysis 8 Figure 1.7. Establishing Design Specifications 10 Figure 1.8. Needs Metrics Matrix 10 Figure 1.9. Concept Generation 12 Figure 1.10. Concept Selection 13 Figure 1.11. Detail Design 14 Figure 2.1. Function and Module Types 21 Figure 2.2. Component Swapping Modularity 23 Figure 2.3. Component Sharing Modularity 23 Figure 2.4. Fabricate to Fit Modularity 24 Figure 2.5. Bus Modularity 24 Figure 2.6. PC Assembly Diagram 26 Figure 2.7. Structural Decomposition of a Vehicle System 26 Figure 2.8. Structural Decomposition of a Carriage Unit 27 Figure 2.9. Requirements Decomposition 28 Figure 2.10. Ball Bearing Design Constraint Parameter Incidence Matrix 29 Figure 2.11. Decomposed Constraint Parameter Incidence Matrix 30 Figure 2.12. Hierarchical Decomposition of a Complex System 30 Figure 2.13. Monocode Structure 33 List of Figures Figure 2.14. Polycode Structure 33 Figure 2.15. Hybrid Structure 34 Figure 2.16. Part Machine Incidence Matrix 35 Figure 3.1. Overview of the Proposed Design Environment 49 Figure 3.2. Design for Modularity 51 Figure 3.3. Customer Satisfaction Process 52 Figure 3.4. Kano s Model 53 Figure 3.5. The House of Quality 58 Figure 3.6. Function Structure Diagram 66 Figure 3.7. Computer Physical Decomposition 66 Figure 3.8. Overall Function Flow Diagram 68 Figure 3.9. Function Flow Diagram 68 Figure 3.10. System Level Specification Decomposition Hierarchy 70 Figure 3.11. System Diagram 74 Figure 3.12. Four Gear Speed Reducer 76 Figure 3.13. Physical Decomposition of Pump System 76 Figure 3.14. Overall Function of the Speed Reducer 77 Figure 3.15. Components Functions 77 Figure 3.16. System Level Specification Hierarchy Structure 79 Figure 3.17. Functional Similarity Matrix 81 Figure 3.18. Physical Similarity Matrix 82 Figure 3.19. Combined Similarity Matrix 82 Figure 3.20. Functional Modules 83 Figure 3.21. Physical Modules 83 Figure 3.22. Combined Modules 83 Figure 4.1. Elements of DFMA 100 Figure 4.2. Traditional Process vs. Concurrent Engineering Process 100 Figure 4.3. The Subtract and Operate Procedure 102 Figure 4.4. Paper Clip Example [51] 102 Figure 4.5. DFMA Functional Criteria Flowchart [8] 103 Figure 4.6. Original Arm Bracket Assembly 104 Figure 4.7. DFMA Designed Arm Bracket Assembly 104 Figure 4.8. Design for Manual Assembly Worksheet [8, 9] 106 Figure 4.9. Manual Handling—Estimated Times (seconds) [8, 9] 107 Figure 4.10. Manual Insertion—Estimated Times (seconds) [8, 9] 108 Figure 4.11. Exploded View of Fog Lamp (current design) 112 Figure 4.12. Assembly Sequence of Current Fog Lamp Design 112 Figure 4.13. Functionality Tables for Fog Lamp Design 117 Figure 4.14. Exploded View of Fog Lamp (proposed design) 119 Figure 4.15. Alternative Design 1 120 Figure 4.16. Alternative Design 2 120 Figure 4.17. Alternative Design 3 121 Figure 5.1. Geometric Modeling Classification 124 Figure 5.2. DFM Process 130 Figure 5.3. CAPP Characteristics 133 Figure 5.4. Integrated Product Design and Process Planning 134 Figure 5.5. Sample Parametric File Format 137 Figure 5.6. Surfaces that Require Machining 138 Figure 5.7. General Crank Dimensions 140 Figure 5.8. Fillet Radii 140 Figure 5.9. Oil Hole Coordinate System 141 Figure 5.10. Counterweight Dimensions 141 Figure 5.11. Lightening Hole Dimensions 142 Figure 5.12. Balance Hole Dimensions 142 Figure 6.1. The Three Kinds of Traditional Manufacturing Systems 171 Figure 6.2. Layouts of Manned and Unmanned Cells 173 Figure 6.3. The Dendrogram Constructed for Sample Parts 190 List of Tables Table 2.1. Ball Bearing Design Parameters 28 Table 2.2. Ball Bearing Design Constraints 29 Table 2.3. Machines Combined Similarity Methods 43 Table 3.1. Functional Objectives 64 Table 3.2. Operational Functional Requirements 64 Table 3.3. Relationships between Component Functions 69 Table 3.4. GFRvs. SLS 71 Table 3.5. Relationships between Components Functions 78 Table 3.6. System Level Specifications 79 Table 3.7. Impact of SLS on GFR 81 Table 4.1. Analysis Results for the Existing and the Proposed Design Using DFMA Methodology 118 Table 4.2. Analysis Results for the Existing Design and Alternative Design 1 119 Table 4.3. Analysis Results for the Existing Design and Alternative Design 2 120 Table 4.4. Analysis Results for the Existing Design and Alternative Design 3 121 Table 5.1. Product to Process Features Associativities 125 Table 5.2. GD T Classifications 126 Table 5.3. Sample GD T and Process Machines Associativity 126 Table 5.4. Overview of V CAPP and G CAPP Characteristics 132 Table 5.5. CAPP Systems Development Techniques 133 Table 6.1. Characteristics of Cellular vs. Traditional Manufacturing Systems 173 Table 6.2. KAMKODE Coding Structure 176 List of Tables Table 6.3. Coding of a Sample Part with KAMCODE 177 Table 6.4. Example Weight Categories 179 Table 6.5. Sample Parts Used for Dissimilarity Analysis 180 Table 6.6. Dissimilarity Measures for Two Parts 180 Table 6.7. Disagreement Measures between All Parts 190 Table 6.8. Machine Investment Costs, Annual Available Machine Time, Tool Investment Cost, and Tool Life 191 Table 6.9. Annual Demand for Various Parts (d,) 191 Table 6.10. Machine Reliability (R) 192 Table 6.11. Cell Configuration 192 Table 6.12. Number of Machine Types and Their Assignments 193 Table 6.13. Number of Tool Types and Their Assignments 193
any_adam_object	1
author	Kamrani, Ali K. Salhieh, Sa'ed M.
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dewey-tens	740 - Graphic arts and decorative arts
discipline	Kunstgeschichte Werkstoffwissenschaften / Fertigungstechnik
format	Book
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spelling	Kamrani, Ali K. Verfasser aut Product design for modularity Ali K. Kamrani ; Sa'ed M. Salhieh Boston [u.a.] Kluwer Acad. Publ. 2000 XVIII, 203 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Productieplanning gtt Productontwikkeling gtt Vormgeving gtt Werktuigbouwkunde gtt Flexible manufacturing systems Industrial design Modularity (Engineering) Salhieh, Sa'ed M. Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009816044&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kamrani, Ali K. Salhieh, Sa'ed M. Product design for modularity Productieplanning gtt Productontwikkeling gtt Vormgeving gtt Werktuigbouwkunde gtt Flexible manufacturing systems Industrial design Modularity (Engineering)
title	Product design for modularity
title_auth	Product design for modularity
title_exact_search	Product design for modularity
title_full	Product design for modularity Ali K. Kamrani ; Sa'ed M. Salhieh
title_fullStr	Product design for modularity Ali K. Kamrani ; Sa'ed M. Salhieh
title_full_unstemmed	Product design for modularity Ali K. Kamrani ; Sa'ed M. Salhieh
title_short	Product design for modularity
title_sort	product design for modularity
topic	Productieplanning gtt Productontwikkeling gtt Vormgeving gtt Werktuigbouwkunde gtt Flexible manufacturing systems Industrial design Modularity (Engineering)
topic_facet	Productieplanning Productontwikkeling Vormgeving Werktuigbouwkunde Flexible manufacturing systems Industrial design Modularity (Engineering)
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009816044&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kamranialik productdesignformodularity AT salhiehsaedm productdesignformodularity

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