CAD/CAM.
Groover.
CAD/CAM. - 1 online resource (512 pages)
Cover -- Contents -- Preface -- 1 Introduction -- 1.1 CAD/CAM Defined -- 1.2 The Product Cycle and CAD/CAM -- 1.3 Automation and CAD/CAM -- 1.4 Organization of This Book -- References -- Part I: COMPUTERS, THE FOUNDATION OF CAD/CAM -- 2 Computer Technology -- 2.1 Introduction -- 2.2 Central Processing Unit (CPU) -- 2.3 Types of Memory -- 2.4 Input/Output -- 2.5 Data Representation -- 2.6 Computer Programming Languages -- 2.7 Operating the Computer System -- References -- Problems -- 3 Minicomputers, Microcomputers, and Programmable Controllers -- 3.1 Introduction -- 3.2 Minicomputers -- 3.3 Microcomputers -- 3.4 Programmable Controllers -- References -- Problems -- Part II: COMPUTER-AIDED DESIGN -- 4 Fundamentals of CAD -- 4.1 Introduction -- 4.2 The Design Process -- 4.3 The Application of Computers for Design -- 4.4 Creating the Manufacturing Data Base -- 4.5 Benefits of Computer-Aided Design -- 4.6 Some Examples -- References -- 5 Hardware in Computer-Aided Design -- 5.1 Introduction -- 5.2 The Design Workstation -- 5.3 The Graphics Terminal -- 5.4 Operator Input Devices -- 5.5 Plotters and Other Output Devices -- 5.6 The Central Processing Unit -- 5.7 Secondary Storage -- References -- Problems -- 6 Computer Graphics Software and Data Base -- 6.1 Introduction -- 6.2 The Software Configuration of a Graphics System -- 6.3 Functions of a Graphics Package -- 6.4 Constructing the Geometry -- 6.5 Transformations -- 6.6 Data Base Structure and Content -- 6.7 Wire-Frame versus Solid Modeling -- 6.8 Other CAD Features and CAD/CAM Integration -- References -- Problems -- Part III: NUMERICAL CONTROL, THE BEGINNINGS OF CAM -- 7 Conventional Numerical Control -- 7.1 Introduction -- 7.2 Basic Components of an NC System -- 7.3 The NC Procedure -- 7.4 NC Coordinate Systems -- 7.5 NC Motion Control Systems -- 7.6 Applications of Numerical Control. 7.7 Economics of Numerical Control -- 7.8 Summary -- References -- 8 NC Part Programming -- 8.1 Introduction -- 8.2 The Punched Tape in NC -- 8.3 Tape Coding and Format -- 8.4 Manual Part Programming -- 8.5 Computer-Assisted Part Programming -- 8.6 The APT Language -- 8.7 The MACRO Statement in APT -- 8.8 NC Programming with Interactive Graphics -- 8.9 Voice NC Programming -- 8.10 Manual Data Input -- References -- Problems -- Appendix: APT Word Definitions -- 9 Computer Controls in NC -- 9.1 Introduction -- 9.2 Problems with Conventional NC -- 9.3 NC Controller Technology -- 9.4 Computer Numerical Control -- 9.5 Direct Numerical Control -- 9.6 Combined DNC/CNC Systems -- 9.7 Adaptive Control Machining Systems -- 9.8 Trends and New Developments in NC -- References -- Part IV: INDUSTRIAL ROBOTS -- 10 Robot Technology -- 10.1 Introduction -- 10.2 Robot Physical Configurations -- 10.3 Basic Robot Motions -- 10.4 Other Technical Features -- 10.5 Programming the Robot -- 10.6 Robot Programming Languages -- 10.7 End Effectors -- 10.8 Work Cell Control and Interlocks -- 10.9 Robotic Sensors -- References -- Problems -- 11 Robot Applications -- 11.1 General Considerations in Robot Applications -- 11.2 Material Transfer -- 11.3 Machine Loading -- 11.4 Welding -- 11.5 Spray Coating -- 11.6 Processing Operations -- 11.7 Assembly -- 11.8 Inspection -- References -- Part V: GROUP TECHNOLOGY AND PROCESS PLANNING -- 12 Group Technology -- 12.1 Introduction -- 12.2 Part Families -- 12.3 Parts Classification and Coding -- 12.4 Three Parts Classification and Coding Systems -- 12.5 Group Technology Machine Cells -- 12.6 Benefits of Group Technology -- References -- Problems -- 13 Computer-Aided Process Planning -- 13.1 The Planning Function -- 13.2 Retrieval-Type Process Planning Systems -- 13.3 Generative Process Planning Systems -- 13.4 Benefits of CAPP. 13.5 Machinability Data Systems -- 13.6 Computer-Generated Time Standards -- References -- Problems -- Part VI: COMPUTER-INTEGRATED PRODUCTION MANAGEMENT SYSTEMS -- 14 Production Planning and Control -- 14.1 Introduction -- 14.2 Traditional Production Planning and Control -- 14.3 Problems with Traditional Production Planning and Control -- 14.4 Computer-Integrated Production Management System -- 14.5 Cost Planning and Control -- References -- 15 Inventory Management and MRP -- 15.1 Introduction -- 15.2 Inventory Management -- 15.3 Material Requirements Planning -- 15.4 Basic MRP Concepts -- 15.5 Inputs to MRP -- 15.6 How MRP Works -- 15.7 MRP Output Reports -- 15.8 Benefits of MRP -- 15.9 MRP II: Manufacturing Resource Planning -- References -- Problems -- 16 Shop Floor Control and Computer Process Monitoring -- 16.1 Introduction -- 16.2 Functions of Shop Floor Control -- 16.3 The Shop Floor Control System -- 16.4 Operation Scheduling -- 16.5 The Factory Data Collection System -- 16.6 Computer Process Monitoring -- References -- Problems -- Part VII: COMPUTER CONTROL -- 17 Computer-Process Interfacing -- 17.1 Introduction -- 17.2 Manufacturing Process Data -- 17.3 System Interpretation of Process Data -- 17.4 Interface Hardware Devices -- 17.5 Digital Input/Output Processing -- 17.6 Hierarchical Computer Structures and Networking -- References -- Problems -- 18 Computer Process Control -- 18.1 Introduction -- 18.2 Structural Model of a Manufacturing Process -- 18.3 Process Control Strategies -- 18.4 Distributed Control versus Central Control -- 18.5 Direct Digital Control -- 18.6 Supervisory Computer Control -- References -- 19 Computer-Aided Quality Control -- 19.1 Introduction -- 19.2 Terminology in Quality Control -- 19.3 The Computer in QC -- 19.4 Contact Inspection Methods -- 19.5 Noncontact Inspection Methods-Optical. 19.6 Noncontact Inspection Methods-Nonoptical -- 19.7 Computer-Aided Testing -- 19.8 Integration of CAQC with CAD/CAM -- References -- 20 Computer-Integrated Manufacturing Systems -- 20.1 Introduction -- 20.2 Types of Manufacturing Systems -- 20.3 Machine Tools and Related Equipment -- 20.4 Material Handling System -- 20.5 Computer Control System -- 20.6 Human Labor in the Manufacturing System -- 20.7 CIMS Benefits -- References -- Part VIII: CAD/CAM IMPLEMENTATION -- 21 Implementing a CAD/CAM System -- 21.1 Introduction -- 21.2 Turnkey CAD/CAM Systems -- 21.3 Selection Criteria -- 21.4 Evaluation of Alternative Systems -- References -- 22 The Future of CAD/CAM -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W.
9788131747490
Electronic books.
670.285
CAD/CAM. - 1 online resource (512 pages)
Cover -- Contents -- Preface -- 1 Introduction -- 1.1 CAD/CAM Defined -- 1.2 The Product Cycle and CAD/CAM -- 1.3 Automation and CAD/CAM -- 1.4 Organization of This Book -- References -- Part I: COMPUTERS, THE FOUNDATION OF CAD/CAM -- 2 Computer Technology -- 2.1 Introduction -- 2.2 Central Processing Unit (CPU) -- 2.3 Types of Memory -- 2.4 Input/Output -- 2.5 Data Representation -- 2.6 Computer Programming Languages -- 2.7 Operating the Computer System -- References -- Problems -- 3 Minicomputers, Microcomputers, and Programmable Controllers -- 3.1 Introduction -- 3.2 Minicomputers -- 3.3 Microcomputers -- 3.4 Programmable Controllers -- References -- Problems -- Part II: COMPUTER-AIDED DESIGN -- 4 Fundamentals of CAD -- 4.1 Introduction -- 4.2 The Design Process -- 4.3 The Application of Computers for Design -- 4.4 Creating the Manufacturing Data Base -- 4.5 Benefits of Computer-Aided Design -- 4.6 Some Examples -- References -- 5 Hardware in Computer-Aided Design -- 5.1 Introduction -- 5.2 The Design Workstation -- 5.3 The Graphics Terminal -- 5.4 Operator Input Devices -- 5.5 Plotters and Other Output Devices -- 5.6 The Central Processing Unit -- 5.7 Secondary Storage -- References -- Problems -- 6 Computer Graphics Software and Data Base -- 6.1 Introduction -- 6.2 The Software Configuration of a Graphics System -- 6.3 Functions of a Graphics Package -- 6.4 Constructing the Geometry -- 6.5 Transformations -- 6.6 Data Base Structure and Content -- 6.7 Wire-Frame versus Solid Modeling -- 6.8 Other CAD Features and CAD/CAM Integration -- References -- Problems -- Part III: NUMERICAL CONTROL, THE BEGINNINGS OF CAM -- 7 Conventional Numerical Control -- 7.1 Introduction -- 7.2 Basic Components of an NC System -- 7.3 The NC Procedure -- 7.4 NC Coordinate Systems -- 7.5 NC Motion Control Systems -- 7.6 Applications of Numerical Control. 7.7 Economics of Numerical Control -- 7.8 Summary -- References -- 8 NC Part Programming -- 8.1 Introduction -- 8.2 The Punched Tape in NC -- 8.3 Tape Coding and Format -- 8.4 Manual Part Programming -- 8.5 Computer-Assisted Part Programming -- 8.6 The APT Language -- 8.7 The MACRO Statement in APT -- 8.8 NC Programming with Interactive Graphics -- 8.9 Voice NC Programming -- 8.10 Manual Data Input -- References -- Problems -- Appendix: APT Word Definitions -- 9 Computer Controls in NC -- 9.1 Introduction -- 9.2 Problems with Conventional NC -- 9.3 NC Controller Technology -- 9.4 Computer Numerical Control -- 9.5 Direct Numerical Control -- 9.6 Combined DNC/CNC Systems -- 9.7 Adaptive Control Machining Systems -- 9.8 Trends and New Developments in NC -- References -- Part IV: INDUSTRIAL ROBOTS -- 10 Robot Technology -- 10.1 Introduction -- 10.2 Robot Physical Configurations -- 10.3 Basic Robot Motions -- 10.4 Other Technical Features -- 10.5 Programming the Robot -- 10.6 Robot Programming Languages -- 10.7 End Effectors -- 10.8 Work Cell Control and Interlocks -- 10.9 Robotic Sensors -- References -- Problems -- 11 Robot Applications -- 11.1 General Considerations in Robot Applications -- 11.2 Material Transfer -- 11.3 Machine Loading -- 11.4 Welding -- 11.5 Spray Coating -- 11.6 Processing Operations -- 11.7 Assembly -- 11.8 Inspection -- References -- Part V: GROUP TECHNOLOGY AND PROCESS PLANNING -- 12 Group Technology -- 12.1 Introduction -- 12.2 Part Families -- 12.3 Parts Classification and Coding -- 12.4 Three Parts Classification and Coding Systems -- 12.5 Group Technology Machine Cells -- 12.6 Benefits of Group Technology -- References -- Problems -- 13 Computer-Aided Process Planning -- 13.1 The Planning Function -- 13.2 Retrieval-Type Process Planning Systems -- 13.3 Generative Process Planning Systems -- 13.4 Benefits of CAPP. 13.5 Machinability Data Systems -- 13.6 Computer-Generated Time Standards -- References -- Problems -- Part VI: COMPUTER-INTEGRATED PRODUCTION MANAGEMENT SYSTEMS -- 14 Production Planning and Control -- 14.1 Introduction -- 14.2 Traditional Production Planning and Control -- 14.3 Problems with Traditional Production Planning and Control -- 14.4 Computer-Integrated Production Management System -- 14.5 Cost Planning and Control -- References -- 15 Inventory Management and MRP -- 15.1 Introduction -- 15.2 Inventory Management -- 15.3 Material Requirements Planning -- 15.4 Basic MRP Concepts -- 15.5 Inputs to MRP -- 15.6 How MRP Works -- 15.7 MRP Output Reports -- 15.8 Benefits of MRP -- 15.9 MRP II: Manufacturing Resource Planning -- References -- Problems -- 16 Shop Floor Control and Computer Process Monitoring -- 16.1 Introduction -- 16.2 Functions of Shop Floor Control -- 16.3 The Shop Floor Control System -- 16.4 Operation Scheduling -- 16.5 The Factory Data Collection System -- 16.6 Computer Process Monitoring -- References -- Problems -- Part VII: COMPUTER CONTROL -- 17 Computer-Process Interfacing -- 17.1 Introduction -- 17.2 Manufacturing Process Data -- 17.3 System Interpretation of Process Data -- 17.4 Interface Hardware Devices -- 17.5 Digital Input/Output Processing -- 17.6 Hierarchical Computer Structures and Networking -- References -- Problems -- 18 Computer Process Control -- 18.1 Introduction -- 18.2 Structural Model of a Manufacturing Process -- 18.3 Process Control Strategies -- 18.4 Distributed Control versus Central Control -- 18.5 Direct Digital Control -- 18.6 Supervisory Computer Control -- References -- 19 Computer-Aided Quality Control -- 19.1 Introduction -- 19.2 Terminology in Quality Control -- 19.3 The Computer in QC -- 19.4 Contact Inspection Methods -- 19.5 Noncontact Inspection Methods-Optical. 19.6 Noncontact Inspection Methods-Nonoptical -- 19.7 Computer-Aided Testing -- 19.8 Integration of CAQC with CAD/CAM -- References -- 20 Computer-Integrated Manufacturing Systems -- 20.1 Introduction -- 20.2 Types of Manufacturing Systems -- 20.3 Machine Tools and Related Equipment -- 20.4 Material Handling System -- 20.5 Computer Control System -- 20.6 Human Labor in the Manufacturing System -- 20.7 CIMS Benefits -- References -- Part VIII: CAD/CAM IMPLEMENTATION -- 21 Implementing a CAD/CAM System -- 21.1 Introduction -- 21.2 Turnkey CAD/CAM Systems -- 21.3 Selection Criteria -- 21.4 Evaluation of Alternative Systems -- References -- 22 The Future of CAD/CAM -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W.
9788131747490
Electronic books.
670.285