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自动化、生产系统与计算机集成制造(第三版 英文影印版)
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资料介绍
自动化、生产系统与计算机集成制造(第三版 英文影印版)
出版时间:2011年版
丛编项: 国外大学优秀教材·工业工程系列
内容简介
《自动化、生产系统与计算机集成制造(第3版)》对第2版的内容进行了以下修订:扩展了传感器和执行元件的范围;对数控技术部分的有关内容进行了顺序调整;第25章“生产计划与控制”增加了企业资源规划(erp)的有关内容;扩展了精益生产的范围;更新了全书的习题。
目录
《自动化、生产系统与计算机集成制造(第3版)(英文影印版)》
chapter 1 introduction
1.1 production systems 3
1.2 automation in production systems 9
1.3 manual labor in production systems 13
1.4 automation principles and strategies 15
1.5 organization of this book 20
part ⅰ: overview of manufacturing
chapter manufacturing operations
2.1 manufacturing industries and products 27
2.2 manufacturing operations 30
2.3 production facilities 34
2.4 product/production relationships 39
2.5 lean production 44
chapter 3 manufacturing models and metrics
3.1 mathematical models of production performance 49
3.2 manufacturing costs 57
appendix averaging procedures for production models 66
part ⅱ: automation and control technologies
chapter 4 introduction to automation
4.1 basic elements of an automated system 71
4.2 advanced automation functions 79
4.3 levels of automation 84
chapter 5 industrial control systems
5.1 process industries versus discrete manufacturing industries 89
5.2 continuous versus discrete control 91
5.3 computer process control 97
chapter 6 hardware components for automation and process control
6.1 sensors 115
6.2 actuators 119
6.3 analog-to-digitalconverters 128
6.4 digital-to-analog converters 131
6.5 input/output devices for discrete data 134
chapter 7 numerical control
7.1 fundamentals of nc technology 142
7.2 computer numerical control 148
7.3 distributed numerical control 153
7.4 applications of nc 156
7.5 engineering analysis of nc positioning systems 163
7.6 nc part programming 171
appendix a 7: coding for manual part programming 189
appendix b 7: part programming with apt 197
chapter 8 industrial robotics
8.1 robot anatomy and related attributes 215
8.2 robot control systems 221
8.3 end effectors 223
8.4 sensors in robotics 224
8.5 industrial robot applications 225
8.6 robot programming 233
8.7 robot accuracy and repeatability 241
chapter discrete control using programmable logic controllers
and personal computers
9.1 discrete process control 250
9.2 ladder logic diagrams 258
9.3 programmable logic controllers 262
9.4 personal computers using soft logic 269
part ⅲ: material handling and identification
technologies
chapter 10 material transport systems
10.1 introduction to material handling 274
10.2 materialtransportequipment 279
10.3 analysis of material transport systems 296
chapter 11 storage systems
11.1 storage system performance and location strategies 314
11.2 conventional storage methods and equipment 318
11.3 automated storage systems 321
11.4 engineering analysis of storage systems 329
chapter 12 automatic identification and data capture
12.1 overview of automatic identification methods 343
12.2 bar code technology 346
12.3 radio frequency identification 354
12.4 other aidc technologies 356
part ⅳ: manufacturing systems
chapter 13 introduction to manufacturing systems
13.1 components of a manufacturing system 361
13.2 a classification scheme for manufacturing systems 366
13.3 overview of the classification scheme 373
chapter 14 single-station manufacturing cells
14.1 single-station manned cells 379
14.2 single-station automated cells 380
14.3 applications of single-station cells 385
14.4 analysis of single-station systems 390
chapter 15 manual assembly lines
15.1 fundamentals of manual assembly lines 403
15.2 analysis of single model assembly lines 410
15.3 line balancing algorithms 417
15.4 mixed model assembly lines 422
15.5 workstation considerations 434
15.6 other considerations in assembly line design 435
]5.7 alternative assembly systems 438
chapter 16 automated production lines
16.1 fundamentals of automated production lines 449
16.2 applications of automated production lines 458
16.3 analysis of transfer lines 462
chapter 17 automated assembly systems
17.1 fundamentals of automated assembly systems 482
17.2 quantitative analysis of assembly systems 488
chapter 18 cellular manufacturing
18.1 part families 509
18.2 parts classification and coding 512
18.3 production flow analysis 516
18.4 cellular manufacturing 518
18.5 applications of group technology 523
18.6 quantitative analysis in cellular manufacturing 525
chapter 19 flexible manufacturing systems
19.1 what is a flexible manufacturing system? 540
19.2 fms components 545
19.3 fmsapplications and benefits 555
19.4 fms planning and implementation issues 558
19.5 quantitative analysis of flexible manufacturing systems 560
part ⅴ: quality control in manufacturing systems
chapter 20 quality programs for manufacturing
20.1 quality in design and manufacturing 586
20.2 traditional and modern quality control 587
20.3 process variability and process capability 590
20.4 statistical process control 594
20.5 six sigma 605
20.6 the six sigma dmaic procedure 608
20.7 taguchi methods in quality engineering 615
20.8 iso 9000 620
chapter 21 inspection principles and practices
21.1 inspection fundamentals 630
21.2 sampling vs. 100% inspection 635
21.3 automated inspection 639
21.4 when and where to inspect 641
21.5 quantitative analysis of inspection 645
chapter 22 inspection technologies
22.1 inspection metrology 659
22 2 contact vs noncontact inspection techniques 663
22.3 conventional measuring and gaging techniques 664
22.4 coordinate measuring machines 665
22.5 surface measurement 679
22.6 machine vision 682
22.7 other optical inspection methods 688
22.8 noncont'act nonoptical inspection techniques 691
part ⅵ: manufacturing support systems
chapter 23 product design and cad/cam in the production system
23.1 product design and cad 699
23.2 cad system hardware 705
23.3 cam, cad/cam, and cim 708
23.4 quality function deployment 712
chapter 24 process planning and concurrent engineering
24.1 process planning 720
24.2 computer-aided process planning 726
24.3 concurrent engineering and design for manufacturing 728
24.4 advanced manufacturing planning 732
chapter 25 production planning and control systems
25.1 aggregate production planning and the master production schedule 740
25.2 material requirements planning 741
25.3 capacity planning 747
25.4 shop floor control 749
25.5 inventory control 755
25.6 extensions of mrp 762
chapter 26 just-in-time and lean production
26.1 lean production and waste in manufacturing 770
26.2 just-in-time production systems 774
26.3 autonomation 781
26.4 worker involvement 785
index
出版时间:2011年版
丛编项: 国外大学优秀教材·工业工程系列
内容简介
《自动化、生产系统与计算机集成制造(第3版)》对第2版的内容进行了以下修订:扩展了传感器和执行元件的范围;对数控技术部分的有关内容进行了顺序调整;第25章“生产计划与控制”增加了企业资源规划(erp)的有关内容;扩展了精益生产的范围;更新了全书的习题。
目录
《自动化、生产系统与计算机集成制造(第3版)(英文影印版)》
chapter 1 introduction
1.1 production systems 3
1.2 automation in production systems 9
1.3 manual labor in production systems 13
1.4 automation principles and strategies 15
1.5 organization of this book 20
part ⅰ: overview of manufacturing
chapter manufacturing operations
2.1 manufacturing industries and products 27
2.2 manufacturing operations 30
2.3 production facilities 34
2.4 product/production relationships 39
2.5 lean production 44
chapter 3 manufacturing models and metrics
3.1 mathematical models of production performance 49
3.2 manufacturing costs 57
appendix averaging procedures for production models 66
part ⅱ: automation and control technologies
chapter 4 introduction to automation
4.1 basic elements of an automated system 71
4.2 advanced automation functions 79
4.3 levels of automation 84
chapter 5 industrial control systems
5.1 process industries versus discrete manufacturing industries 89
5.2 continuous versus discrete control 91
5.3 computer process control 97
chapter 6 hardware components for automation and process control
6.1 sensors 115
6.2 actuators 119
6.3 analog-to-digitalconverters 128
6.4 digital-to-analog converters 131
6.5 input/output devices for discrete data 134
chapter 7 numerical control
7.1 fundamentals of nc technology 142
7.2 computer numerical control 148
7.3 distributed numerical control 153
7.4 applications of nc 156
7.5 engineering analysis of nc positioning systems 163
7.6 nc part programming 171
appendix a 7: coding for manual part programming 189
appendix b 7: part programming with apt 197
chapter 8 industrial robotics
8.1 robot anatomy and related attributes 215
8.2 robot control systems 221
8.3 end effectors 223
8.4 sensors in robotics 224
8.5 industrial robot applications 225
8.6 robot programming 233
8.7 robot accuracy and repeatability 241
chapter discrete control using programmable logic controllers
and personal computers
9.1 discrete process control 250
9.2 ladder logic diagrams 258
9.3 programmable logic controllers 262
9.4 personal computers using soft logic 269
part ⅲ: material handling and identification
technologies
chapter 10 material transport systems
10.1 introduction to material handling 274
10.2 materialtransportequipment 279
10.3 analysis of material transport systems 296
chapter 11 storage systems
11.1 storage system performance and location strategies 314
11.2 conventional storage methods and equipment 318
11.3 automated storage systems 321
11.4 engineering analysis of storage systems 329
chapter 12 automatic identification and data capture
12.1 overview of automatic identification methods 343
12.2 bar code technology 346
12.3 radio frequency identification 354
12.4 other aidc technologies 356
part ⅳ: manufacturing systems
chapter 13 introduction to manufacturing systems
13.1 components of a manufacturing system 361
13.2 a classification scheme for manufacturing systems 366
13.3 overview of the classification scheme 373
chapter 14 single-station manufacturing cells
14.1 single-station manned cells 379
14.2 single-station automated cells 380
14.3 applications of single-station cells 385
14.4 analysis of single-station systems 390
chapter 15 manual assembly lines
15.1 fundamentals of manual assembly lines 403
15.2 analysis of single model assembly lines 410
15.3 line balancing algorithms 417
15.4 mixed model assembly lines 422
15.5 workstation considerations 434
15.6 other considerations in assembly line design 435
]5.7 alternative assembly systems 438
chapter 16 automated production lines
16.1 fundamentals of automated production lines 449
16.2 applications of automated production lines 458
16.3 analysis of transfer lines 462
chapter 17 automated assembly systems
17.1 fundamentals of automated assembly systems 482
17.2 quantitative analysis of assembly systems 488
chapter 18 cellular manufacturing
18.1 part families 509
18.2 parts classification and coding 512
18.3 production flow analysis 516
18.4 cellular manufacturing 518
18.5 applications of group technology 523
18.6 quantitative analysis in cellular manufacturing 525
chapter 19 flexible manufacturing systems
19.1 what is a flexible manufacturing system? 540
19.2 fms components 545
19.3 fmsapplications and benefits 555
19.4 fms planning and implementation issues 558
19.5 quantitative analysis of flexible manufacturing systems 560
part ⅴ: quality control in manufacturing systems
chapter 20 quality programs for manufacturing
20.1 quality in design and manufacturing 586
20.2 traditional and modern quality control 587
20.3 process variability and process capability 590
20.4 statistical process control 594
20.5 six sigma 605
20.6 the six sigma dmaic procedure 608
20.7 taguchi methods in quality engineering 615
20.8 iso 9000 620
chapter 21 inspection principles and practices
21.1 inspection fundamentals 630
21.2 sampling vs. 100% inspection 635
21.3 automated inspection 639
21.4 when and where to inspect 641
21.5 quantitative analysis of inspection 645
chapter 22 inspection technologies
22.1 inspection metrology 659
22 2 contact vs noncontact inspection techniques 663
22.3 conventional measuring and gaging techniques 664
22.4 coordinate measuring machines 665
22.5 surface measurement 679
22.6 machine vision 682
22.7 other optical inspection methods 688
22.8 noncont'act nonoptical inspection techniques 691
part ⅵ: manufacturing support systems
chapter 23 product design and cad/cam in the production system
23.1 product design and cad 699
23.2 cad system hardware 705
23.3 cam, cad/cam, and cim 708
23.4 quality function deployment 712
chapter 24 process planning and concurrent engineering
24.1 process planning 720
24.2 computer-aided process planning 726
24.3 concurrent engineering and design for manufacturing 728
24.4 advanced manufacturing planning 732
chapter 25 production planning and control systems
25.1 aggregate production planning and the master production schedule 740
25.2 material requirements planning 741
25.3 capacity planning 747
25.4 shop floor control 749
25.5 inventory control 755
25.6 extensions of mrp 762
chapter 26 just-in-time and lean production
26.1 lean production and waste in manufacturing 770
26.2 just-in-time production systems 774
26.3 autonomation 781
26.4 worker involvement 785
index
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