Advanced Design Concepts for EngineersCRC Press, 24/03/1998 - 256 من الصفحات This book provides the design engineer with concise information on the most important advanced methods that have emerged in recent years for the design of structures, products and components. While these methods have been discussed in the professional literature, this is the first full presentation of their key principles and features in a single convenient volume. Both veteran and beginning design engineers will find new information and ideas in this book for improving the design engineering process in terms of quality, reliability, cost control and timeliness. Each advanced design concept is examined thoroughly, but in a concise way that presents the essentials clearly and quickly. The author is a leading engineering educator whose many books on design engineering methods, engineering management and quality control have been published in different languages throughout the world. This recent book is available for prompt delivery. To receive your copy quickly, please order now. An order form follows the complete table of contents on the reverse. |
المحتوى
Introduction to Design | 1 |
DESIGN FAILURES AND THEIR COMMON REASONS | 2 |
13 THE DESIGN PROCESS | 3 |
14 GOOD AND BAD DESIGN CHARACTERISTICS AND ARGUMENTS FOR AND AGAINST FINITELIFE DESIGN | 4 |
15 ENGINEERING DESIGN FUNCTIONS | 5 |
16 DESIGN REVIEWS | 6 |
17 ENGINEERING DESIGN MANPOWER | 7 |
18 DESIGN INFORMATION SOURCES | 9 |
63 HAZARD CLASSIFICATIONS AND COMMON MECHANICAL INJURIES | 113 |
64 SAFETY IN SYSTEM LIFE CYCLE | 115 |
65 SAFETY ANALYSIS METHODS | 117 |
66 SAFETY COSTING | 122 |
67 PRODUCT LIABILITY | 126 |
68 PROBLEMS | 128 |
Human Factors | 131 |
72 TYPES OF MANMACHINE SYSTEMS AND HUMAN ERROR RELATED SYSTEM FAILURES | 132 |
19 PROBLEMS | 12 |
Design Mathematics | 15 |
23 PROBABILITY | 18 |
24 PROBABILITY DENSITY FUNCTION BASIC PROPERTIES AND DEFINITION | 20 |
25 MEAN VALUE AND VARIANCE OF A CONTINUOUS RANDOM VARIABLE | 22 |
27 LAPLACE TRANSFORMS | 25 |
28 FINAL VALUE THEOREM | 26 |
29 SOLVING DIFFERENTIAL EQUATIONS USING LAPLACE TRANSFORMS | 28 |
210 PROBLEMS | 29 |
211 REFERENCES | 30 |
Concurrent Engineering Reverse Engineering and Reengineering | 31 |
32 CONCURRENT ENGINEERING | 32 |
33 REVERSE ENGINEERING | 42 |
34 REENGINEERING | 47 |
35 PROBLEMS | 53 |
Design Reliability | 55 |
42 REASONS FOR CONSIDERING RELIABILITY IN PRODUCT DESIGN | 56 |
43 RELIABILITY IN THE SYSTEM DESIGN AND DEVELOPMENT PROCESS PRODUCTION PROCESS AND SUPPORT PROCESS | 58 |
44 REDUCING A PRODUCTSYSTEM LIFE CYCLE COST WHILE IMPROVING ITS RELIABILITYMAINTAINABILITYAVAILABILITY | 59 |
46 GENERAL FAILURE DENSITY HAZARD RATE AND RELIABILITY FUNCTIONS | 61 |
47 ITEM MEAN TIME TO FAILURE | 65 |
48 COMMON RELIABILITY NETWORKS | 68 |
49 RELIABILITY ASSESSMENT METHODS | 77 |
410 RELIABILITYMAINTAINABILITY STANDARD DOCUMENTS AND FAILURE RATES OF SELECTED ITEMS | 86 |
411 PROBLEMS | 88 |
412 REFERENCES | 89 |
Maintainability Engineering | 91 |
52 MAINTAINABILITY DEFINITION OBJECTIVES AND PROGRAM ELEMENTS | 92 |
53 MAINTAINABILITY IN DESIGN PHASE AND SUPPORT PROCESS | 93 |
54 MAINTAINABILITY MEASURES | 94 |
55 MAINTAINABILITY FUNCTIONS | 98 |
56 SPARE PART QUANTITY AND MAINTENANCE LABORHOURS PER OPERATING HOUR PREDICTIONS | 100 |
57 RELIABILITYCENTERED MAINTENANCE | 101 |
58 BACKGROUND DATA FOR MAINTAINABILITY DESIGN AND MAINTAINABILITY DESIGN CHARACTERISTICS | 103 |
59 GENERAL DESIGN GUIDELINES FOR MAINTAINABILITY AND COMMON MAINTAINABILITYRELATED DESIGN ERRORS | 107 |
510 PROBLEMS | 108 |
511 REFERENCES | 109 |
Safety Engineering | 111 |
62 SAFETY ENGINEERING GOALS AND SYSTEMSPRODUCT SAFETY ENGINEERING | 112 |
73 HUMAN FACTORS CONSIDERATIONS IN PRODUCT DESIGN | 133 |
74 HUMAN BEHAVIORAL EXPECTANCIES | 134 |
75 COMPARISON OF HUMANS WITH MACHINES AND SELECTED METHODS FOR HUMAN FACTORS EVALUATION OF SYSTEMPRODU... | 135 |
76 HUMAN SENSORY CAPABILITIES AND BODY MEASUREMENTS | 136 |
77 FORMULAS FOR DESIGN SPECIALISTS | 143 |
78 HUMAN FACTORS GENERAL GUIDELINES FOR PRODUCTSYSTEM DESIGN | 148 |
710 REFERENCES | 149 |
Total Quality Management | 151 |
82 TQM BASICS AND COMPARISON OF TRADITIONAL AND TOTAL QUALITY MANAGEMENT | 152 |
83 TQM PRINCIPLES AND ELEMENTS | 153 |
84 DESIGNING FOR QUALITY AND DEMINGS FOURTEENPOINT APPROACH TO TQM | 156 |
85 TQM IMPLEMENTATION OBSTACLES AND GOALS FOR TQM PROCESS SUCCESS | 157 |
86 QUALITY IN THE DESIGN PHASE | 158 |
87 TQM TOOLS | 160 |
88 TQM IMPLEMENTATION PITFALLS SELECTIVE ORGANIZATIONS AND CENTERS AND BALDRIGE AWARD WINNERS | 165 |
89 SELECTED PUBLICATIONS ON TQM AND DESIGN QUALITY AND QUALITY MAGAZINES AND EDUCATIONAL VIDEOTAPES | 166 |
810 PROBLEMS | 168 |
Value Engineering and Configuration Management | 171 |
92 VALUE ENGINEERING | 173 |
93 CONFIGURATION MANAGEMENT | 180 |
94 PROBLEMS | 187 |
95 REFERENCES | 188 |
Life Cycle Costing | 191 |
102 REASONS FOR SYSTEM COST INCREASES AND LIFE CYCLE COST ANALYSIS PURPOSES | 192 |
103 DATA REQUIRED FOR LIFE CYCLE COSTING AND DATA SOURCES | 193 |
104 LIFE CYCLE COST ANALYSIS STEPS AND ASSOCIATED ACTIVITIES AND AREAS FOR LIFE CYCLE COSTING PROGRAM EVALUA... | 194 |
105 COSTS GENERATED OVER THE PRODUCT LIFE CYCLE | 195 |
106 LIFE CYCLE COSTING PERFORMANCE SKILLS AND ASSOCIATED PROFESSIONALS | 196 |
107 LIFE CYCLE COST ESTIMATION MODELS | 197 |
108 COST ESTIMATION MODELS | 202 |
109 TIME VALUE OF MONEY BARRIERS TO OBTAINING USEFUL COST INFORMATION AND ADVANTAGES AND DISADVANTAGES O... | 206 |
1010 PROBLEMS | 208 |
ComputerAided Design and the Information Superhighway | 211 |
112 COMPUTERAIDED DESIGN | 212 |
113 INFORMATION SUPERHIGHWAY | 226 |
114 PROBLEMS | 234 |
237 | |
Biography | |
طبعات أخرى - عرض جميع المقتطفات
عبارات ومصطلحات مألوفة
accident application approach areas basic benchmarking CAD system CAD/CAM CAD/CAM systems characteristics components Computer-Aided Design concerned concurrent engineering corrective maintenance cost associated COST ESTIMATION MODEL cycle cost cycle cost analysis Department of Defense described design engineer design phase design process design review Dhillon diagram distribution documentation effective electric electronic elements Engineering Design equipment evaluation example expressed failure modes fault tree FMEA function hazards human factors identify IEEE implementation important improve Internet involved Laplace transform maintainability manufacturing McGraw-Hill Book Company mean mechanism method motor MTTF occur operating organization performance probability problems product design product life cycle product/system Rayleigh distribution reduction reengineering Reliability Engineering repair result reverse engineering risk safety selection Software Configuration Management specifications Substituting Equation system/product tasks team members techniques tool Total Quality Management TQM concept types unit value analysis value engineering various Washington York