Item Details

21st Century Manufacturing

Paul Kenneth Wright
Format
Book
Published
Upper Saddle River, NJ : Prentice Hall, c2001.
Edition
1st ed
Language
English
Variant Title
Twenty first century manufacturing
ISBN
0130956015
Contents
  • 1 Manufacturing: Art, Technology, Science, and Business 1
  • 1.1 Introduction: What Is "Manufacturing"? 1
  • 1.2 Art of Manufacturing (from 20,000 B.C. to 1770 A.D.) 2
  • 1.3 Technology of Manufacturing: From the 1770s to the 1970s 5
  • 1.4 A Science of Manufacturing: The 1980s to the Present 8
  • 1.5 Business of Manufacturing 13
  • 1.9 Case Study: "The Next Bench Syndrome" 19
  • 2 Manufacturing Analysis: Some Basic Questions for a Start-up Company 21
  • 2.1 Introduction: www.start-up.com 21
  • 2.2 Question 1: Who Is the Customer? 22
  • 2.3 Question 2: How Much Will the Product Code to Manufacture (C)? 26
  • 2.4 Question 3: How Much Quality (Q)? 44
  • 2.5 Question 3: How Fast Can the Product Be Delivered (D)? 57
  • 2.6 Question 4: How Much Flexibility (F)? 62
  • 2.7 Management of Technology 65
  • 2.11 Interactive Further Work 79
  • 3 Product Design, Computer Aided Design (Cad), and Sold Modeling 81
  • 3.2 Is There a Definition of Design? 82
  • 3.3 Artistic, Creative, or Conceptual Phase of Design 82
  • 3.4 High-Level Engineering Phase of Design 83
  • 3.5 Analytical Phase of Design 86
  • 3.6 Detailed Phase of Design 90
  • 3.7 Three Tutorials: An Overview 90
  • 3.8 First Tutorial: Wire-Frame Construction 91
  • 3.9 Solid Modeling Overview 98
  • 3.10 Second Tutorial: Solid Modeling Using Constructive Solid Geometry (CSG) 104
  • 3.11 Third Tutorial: Solid Modeling Using Destructive Solid Geometry (DSG) 109
  • 3.12 Management of Technology 113
  • 3.16 URLs of Interest: Commercial CAD/CAM Systems and Design Adviers 122
  • 4 Solid Freeform Fabrication (SFF) And Rapid-Prototyping 130
  • 4.1 Solid Freeform Fabrication (SFF) Methods 130
  • 4.2 Stereolithography: A General Overview 133
  • 4.3 Comparisons Between Prototyping Processes 149
  • 4.4 Casting Methods for Rapid Prototyping 154
  • 4.5 Machining Methods for Rapid Prototyping 158
  • 4.6 Management of Technology 161
  • 4.10 URLs of Interest 168
  • 4.11 Interactive Further Work 169
  • 5 Semiconductor Manufacturing 171
  • 5.2 Semiconductors 171
  • 5.3 Market Adoption 172
  • 5.4 Microelectronics Revolution 174
  • 5.5 Transistors 176
  • 5.6 Design 182
  • 5.8 Semiconductor Manufacturing II: NMOS 185
  • 5.9 Layout Rules 189
  • 5.10 More Details on Front-End Processing 192
  • 5.11 Back-End Processing Methods 205
  • 5.12 Cost of Chip Making 208
  • 5.13 Management of Technology 213
  • 5.18 Appendix 1: Worldwide Semiconductor Market Share 231
  • 5.19 Appendix 2: Cost Model Variables in Year 2000--Example for a 64-MB Dram (Courtesy Dataquest) 231
  • 5.20 Review Material 232
  • 6 Computer Manufacturing 233
  • 6.2 Printed Circuit Board Manufacturing 235
  • 6.3 Printed Circuit Board Assembly 239
  • 6.4 Hard Drive Manufacturing 248
  • 6.5 Management of Technology 255
  • 6.8 Case Study on Computer Manufacturing 267
  • 7 Metal-Products Manufacturing 277
  • 7.2 Basic Machining Operations 280
  • 7.3 Controlling the Machining Process 289
  • 7.4 Economics of Machining 302
  • 7.5 Sheet Metal Forming 306
  • 7.6 Management of Technology 315
  • 7.11 Interactive Further Work 1: The Shear Plane Angle 324
  • 7.12 Interactive Further Work 2: "Fixturenet" 325
  • 8 Plastic-Products Manufacturing and Final Assembly 330
  • 8.3 Processing of Plastics I: The Injection Molding Method 334
  • 8.4 Processing of Plastics II: Polymer Extrusion 345
  • 8.5 Processing of Plastics III: Blow Molding 346
  • 8.6 Processing of Plastics IV: Thermoforming of Thin Sheets 346
  • 8.7 Computer as a Commodity: Design for Assembly and Manufacturing 348
  • 8.8 Management of Technology 456
  • 8.13 Case Study on Assembly 362
  • 8.14 Interactive Further Work 364
  • 9 Biotechnology 366
  • 9.2 Modern Practice of an Ancient Art 367
  • 9.3 Capturing Interest 368
  • 9.4 Milestones in Biotechnology History 3696
  • 9.5 A Bioscience Review 371
  • 9.6 Bioprocesses 379
  • 9.7 Genetic Engineering I: Overview 384
  • 9.8 Genetic Engineering II: Case Study on Gene Cloning of Hemoglobin 390
  • 9.9 Bioprocess Engineering 395
  • 9.10 Management of Technology 398
  • 10 Future Aspects of Manufacturing 406
  • 10.1 Restatement of Goals and Context 406
  • 10.2 Management of Technology 407
  • 10.3 From the Past to the Present 408
  • 10.4 From the Present to the Future 409
  • 10.5 Principles of Organizational "Layering" 410
  • 10.6 Layer I: The Learning Organization 411
  • 10.7 Layer II: Compressing Time-to-Market 413
  • 10.8 Layer III: Aesthetics in Design 414
  • 10.9 Layer IV: Bridging Cultures to Create Leading Edge Products 415
  • 10.10 Conclusions to the Layering Principle 420
  • Appendix A "Workbook" of Ideas for Projects, Tours, and Business Plans 423
  • A.1 Who Wants to Be an Entrepreneur? 423
  • A.2 Projects on Prototyping and Business 424
  • A.3 Project Steps and Making Progress 425
  • A.4 Outline of a Short Business Plan 427
  • A.5 Project Selection 428
  • A.6 Project 1: Enhanced Mouse-Input Devices 429
  • A.7 Project 2: Blimp-Cams, Cart-Cams, and Telepresence Devices 430
  • A.8 Project 3: Miniature Radios for Consumer Electronics 431
  • A.9 Project 4: GPS-Based Consumer Products 434
  • A.10 Consulting Projects 437
  • A.11 Overview of Possible Factory Tours 439
  • A.13 Factory-Tour Case Study Write-Up 440
  • A.14 Suggested Format and Content for the Factory-Tour Case Studies 441
  • A.18 Case Study: The "Palm Pilot" 444.
Description
xviii, 460 p. : ill. ; 24 cm.
Notes
Includes bibliographical references and index.
Technical Details
  • Access in Virgo Classic

  • LEADER 06716pam a22003614a 4500
    001 u3681639
    003 SIRSI
    005 20001211152743.0
    008 000404s2001 njua b 001 0 eng
    010
      
      
    a| 00039181
    020
      
      
    a| 0130956015
    035
      
      
    a| (Sirsi) i0130956015
    035
      
      
    a| (OCoLC)43836655
    040
      
      
    a| DLC c| DLC d| DLC d| MvI
    042
      
      
    a| pcc
    050
    0
    0
    a| TK7836 b| .W75 2001
    082
    0
    0
    a| 658.5 2| 21
    090
      
      
    a| SCIENG/TK7836 b| .W75 2001
    100
    1
      
    a| Wright, Paul Kenneth.
    245
    1
    0
    a| 21st century manufacturing / c| Paul Kenneth Wright.
    246
    3
      
    a| Twenty first century manufacturing
    250
      
      
    a| 1st ed.
    260
      
      
    a| Upper Saddle River, NJ : b| Prentice Hall, c| c2001.
    300
      
      
    a| xviii, 460 p. : b| ill. ; c| 24 cm.
    504
      
      
    a| Includes bibliographical references and index.
    505
    0
    0
    g| 1 t| Manufacturing: Art, Technology, Science, and Business g| 1 -- g| 1.1 t| Introduction: What Is "Manufacturing"? g| 1 -- g| 1.2 t| Art of Manufacturing (from 20,000 B.C. to 1770 A.D.) g| 2 -- g| 1.3 t| Technology of Manufacturing: From the 1770s to the 1970s g| 5 -- g| 1.4 t| A Science of Manufacturing: The 1980s to the Present g| 8 -- g| 1.5 t| Business of Manufacturing g| 13 -- g| 1.9 t| Case Study: "The Next Bench Syndrome" g| 19 -- g| 2 t| Manufacturing Analysis: Some Basic Questions for a Start-up Company g| 21 -- g| 2.1 t| Introduction: www.start-up.com g| 21 -- g| 2.2 t| Question 1: Who Is the Customer? g| 22 -- g| 2.3 t| Question 2: How Much Will the Product Code to Manufacture (C)? g| 26 -- g| 2.4 t| Question 3: How Much Quality (Q)? g| 44 -- g| 2.5 t| Question 3: How Fast Can the Product Be Delivered (D)? g| 57 -- g| 2.6 t| Question 4: How Much Flexibility (F)? g| 62 -- g| 2.7 t| Management of Technology g| 65 -- g| 2.11 t| Interactive Further Work g| 79 -- g| 3 t| Product Design, Computer Aided Design (Cad), and Sold Modeling g| 81 -- g| 3.2 t| Is There a Definition of Design? g| 82 -- g| 3.3 t| Artistic, Creative, or Conceptual Phase of Design g| 82 -- g| 3.4 t| High-Level Engineering Phase of Design g| 83 -- g| 3.5 t| Analytical Phase of Design g| 86 -- g| 3.6 t| Detailed Phase of Design g| 90 -- g| 3.7 t| Three Tutorials: An Overview g| 90 -- g| 3.8 t| First Tutorial: Wire-Frame Construction g| 91 -- g| 3.9 t| Solid Modeling Overview g| 98 -- g| 3.10 t| Second Tutorial: Solid Modeling Using Constructive Solid Geometry (CSG) g| 104 -- g| 3.11 t| Third Tutorial: Solid Modeling Using Destructive Solid Geometry (DSG) g| 109 -- g| 3.12 t| Management of Technology g| 113 -- g| 3.16 t| URLs of Interest: Commercial CAD/CAM Systems and Design Adviers g| 122 -- g| 4 t| Solid Freeform Fabrication (SFF) And Rapid-Prototyping g| 130 -- g| 4.1 t| Solid Freeform Fabrication (SFF) Methods g| 130 -- g| 4.2 t| Stereolithography: A General Overview g| 133 -- g| 4.3 t| Comparisons Between Prototyping Processes g| 149 -- g| 4.4 t| Casting Methods for Rapid Prototyping g| 154 -- g| 4.5 t| Machining Methods for Rapid Prototyping g| 158 -- g| 4.6 t| Management of Technology g| 161 -- g| 4.10 t| URLs of Interest g| 168 -- g| 4.11 t| Interactive Further Work g| 169 -- g| 5 t| Semiconductor Manufacturing g| 171 -- g| 5.2 t| Semiconductors g| 171 -- g| 5.3 t| Market Adoption g| 172 -- g| 5.4 t| Microelectronics Revolution g| 174 -- g| 5.5 t| Transistors g| 176 -- g| 5.6 t| Design g| 182 -- g| 5.8 t| Semiconductor Manufacturing II: NMOS g| 185 -- g| 5.9 t| Layout Rules g| 189 -- g| 5.10 t| More Details on Front-End Processing g| 192 -- g| 5.11 t| Back-End Processing Methods g| 205 -- g| 5.12 t| Cost of Chip Making g| 208 -- g| 5.13 t| Management of Technology g| 213 -- g| 5.18 t| Appendix 1: Worldwide Semiconductor Market Share g| 231 -- g| 5.19 t| Appendix 2: Cost Model Variables in Year 2000--Example for a 64-MB Dram (Courtesy Dataquest) g| 231 -- g| 5.20 t| Review Material g| 232 -- g| 6 t| Computer Manufacturing g| 233 -- g| 6.2 t| Printed Circuit Board Manufacturing g| 235 -- g| 6.3 t| Printed Circuit Board Assembly g| 239 -- g| 6.4 t| Hard Drive Manufacturing g| 248 -- g| 6.5 t| Management of Technology g| 255 -- g| 6.8 t| Case Study on Computer Manufacturing g| 267 -- g| 7 t| Metal-Products Manufacturing g| 277 -- g| 7.2 t| Basic Machining Operations g| 280 -- g| 7.3 t| Controlling the Machining Process g| 289 -- g| 7.4 t| Economics of Machining g| 302 -- g| 7.5 t| Sheet Metal Forming g| 306 -- g| 7.6 t| Management of Technology g| 315 -- g| 7.11 t| Interactive Further Work 1: The Shear Plane Angle g| 324 -- g| 7.12 t| Interactive Further Work 2: "Fixturenet" g| 325 -- g| 8 t| Plastic-Products Manufacturing and Final Assembly g| 330 -- g| 8.3 t| Processing of Plastics I: The Injection Molding Method g| 334 -- g| 8.4 t| Processing of Plastics II: Polymer Extrusion g| 345 -- g| 8.5 t| Processing of Plastics III: Blow Molding g| 346 -- g| 8.6 t| Processing of Plastics IV: Thermoforming of Thin Sheets g| 346 -- g| 8.7 t| Computer as a Commodity: Design for Assembly and Manufacturing g| 348 -- g| 8.8 t| Management of Technology g| 456 -- g| 8.13 t| Case Study on Assembly g| 362 -- g| 8.14 t| Interactive Further Work g| 364 -- g| 9 t| Biotechnology g| 366 -- g| 9.2 t| Modern Practice of an Ancient Art g| 367 -- g| 9.3 t| Capturing Interest g| 368 -- g| 9.4 t| Milestones in Biotechnology History g| 3696 -- g| 9.5 t| A Bioscience Review g| 371 -- g| 9.6 t| Bioprocesses g| 379 -- g| 9.7 t| Genetic Engineering I: Overview g| 384 -- g| 9.8 t| Genetic Engineering II: Case Study on Gene Cloning of Hemoglobin g| 390 -- g| 9.9 t| Bioprocess Engineering g| 395 -- g| 9.10 t| Management of Technology g| 398 -- g| 10 t| Future Aspects of Manufacturing g| 406 -- g| 10.1 t| Restatement of Goals and Context g| 406 -- g| 10.2 t| Management of Technology g| 407 -- g| 10.3 t| From the Past to the Present g| 408 -- g| 10.4 t| From the Present to the Future g| 409 -- g| 10.5 t| Principles of Organizational "Layering" g| 410 -- g| 10.6 t| Layer I: The Learning Organization g| 411 -- g| 10.7 t| Layer II: Compressing Time-to-Market g| 413 -- g| 10.8 t| Layer III: Aesthetics in Design g| 414 -- g| 10.9 t| Layer IV: Bridging Cultures to Create Leading Edge Products g| 415 -- g| 10.10 t| Conclusions to the Layering Principle g| 420 -- g| Appendix t| A "Workbook" of Ideas for Projects, Tours, and Business Plans g| 423 -- g| A.1 t| Who Wants to Be an Entrepreneur? g| 423 -- g| A.2 t| Projects on Prototyping and Business g| 424 -- g| A.3 t| Project Steps and Making Progress g| 425 -- g| A.4 t| Outline of a Short Business Plan g| 427 -- g| A.5 t| Project Selection g| 428 -- g| A.6 t| Project 1: Enhanced Mouse-Input Devices g| 429 -- g| A.7 t| Project 2: Blimp-Cams, Cart-Cams, and Telepresence Devices g| 430 -- g| A.8 t| Project 3: Miniature Radios for Consumer Electronics g| 431 -- g| A.9 t| Project 4: GPS-Based Consumer Products g| 434 -- g| A.10 t| Consulting Projects g| 437 -- g| A.11 t| Overview of Possible Factory Tours g| 439 -- g| A.13 t| Factory-Tour Case Study Write-Up g| 440 -- g| A.14 t| Suggested Format and Content for the Factory-Tour Case Studies g| 441 -- g| A.18 t| Case Study: The "Palm Pilot" g| 444.
    596
      
      
    a| 5
    650
      
    0
    a| Electronic industries.
    650
      
    0
    a| Electronic apparatus and appliances x| Design and construction.
    650
      
    0
    a| Production engineering.
    999
      
      
    a| TK7836 .W75 2001 w| LC i| X004420436 l| STACKS m| SCI-ENG t| BOOK

Availability

Google Preview

Library Location Map Availability Call Number
Brown Science and Engineering Stacks N/A Available