- a
- accelerated aging (AA) 77
- accelerated corrosion testing 52, 79, 81
- accelerated degradation
- accelerated durability testing (ADT) , 34–37, 50, 51, 54, 60, 62, 65, 66, 76, 77, 82–87, 92, 94, 96, 101, 102, 105–109, 113, 115, 120, 121, 124, 125, 136, 142, 143, 145, 146, 148, 155, 156, 165, 171, 178, 187, 189, 190, 193
- accelerated laboratory testing 51
- accelerated life testing (ALT) 76, 82
- accelerated multiply environmental testing 85
- accelerated reliability and durability testing (ART/ADT) 50, 76, 82–84
- Accelerated Reliability and Durability Testing Technology 45
- accelerated reliability testing (ART) 46, 50, 76, 82, 83
- accelerated stress testing 78
- accelerated testing (AT) , 46, 78
- accurate definitions of successful reliability prediction 49–51
- accurate information for successful reliability prediction 32
- accurate physical simulation 46, 87
- accurate prediction 10, 51
- accurate reliability prediction 50, 51
- accurate real‐world simulation 82
- accurate simulation 46, 51, 87
- accurate simulation of the field conditions 51
- accurate simulation of the field corrosion 46, 51, 92
- accurate simulation of the field input influences 48, 51
- accurate system of reliability prediction 52
- actual causes of the recalls
- Adib, R. 34
- advanced test methods
- advantages of empirical prediction methods 11
- advantages of physics of failure methods 14
- advantages of standard‐based reliability prediction
- ANSI/VITA 51.3 Qualification and Environmental Stress Screening in Support of Reliability Prediction 16
- Arrhenius's Law 12
- b
- basic components of reliability prediction methodology 53
- basic concepts of accelerated reliability and durability testing 83
- basic concepts of reliability prediction 63
- basic concepts of successful reliability prediction 63, 64
- basic methodology for successful reliability prediction 52
- basic problems of successful reliability prediction 31
- Bayesian approach 22
- The Bellcore hardware reliability prediction
- Bellcore reliability prediction procedure , 11
- Bellcore reliability prediction standard 11
- Bellcore/Telcordia predictive method 11, 15
- beneficial prediction
- Black model for the electromigration 14
- c
- classes of reliability estimates
- classical test theory
- coefficients of recalculating 67, 68
- combined effect 47
- combined simulation 79
- combined testing
- common criteria for successful prediction 53
- components accelerated reliability/durability testing 85
- components reliability prediction 48, 49
- corrosion in the field as result of interaction 82, 92
- corrosion test chamber 93
- corrosion testing 79
- criteria of successful reliability prediction 53–63
- d
- degradation 46
- degradation mechanism of the product 63
- degradation process
- different types of implementation 101
- disadvantages of empirical prediction method 12
- disadvantages of physics of failure methods 15
- disadvantages of standard‐based reliability prediction
- durability testing 50
- e
- empirical prediction standards 11
- empirical reliability prediction methods 11
- engineering culture 87, 88
- evolution of reliability testing 77
- Eyring model 12
- f
- failed reliability prediction
- failure rate
- fatigue life prediction method 25
- FavoWeb FRACAS analysis
- FMEA (Failure Mode and Effects Analysis)
- FMECA (Failure Mode, Effects and Critical Analysis)
- four basic approaches to accelerated testing 76
- FRACAS (Failure Reporting, Analysis and Corrective Action System)
- g
- general model of prediction
- Gipper, J. 18
- grapho‐analytical method 64, 65
- h
- HALT (highly accelerated life testing) 77
- HASS (highly accelerated stress screen) 77
- Hobbs, Gregg 77
- hot carrier injection model of prediction 13
- i
- Illustration for the programs in reliability prediction 220–222
- interaction (interconnection) real‐world input influences 47, 89
- interaction of three basic groups of real world conditions 89
- Interaction real world conditions 47
- interconnection multi‐environmental group of input influences 90
- k
- Kamaz, Inc. 109, 110
- Kanapady, R. 34
- Klyatis criterion 58, 61
- Kolmogorov criterion 55, 58
- Kolmogorov distribution 55, 61
- Kolmogorov divergence 61
- l
- laboratory testing for ART/ADT 51
- level of simulation 80
- Lev Klyatis , 30, 31, 43–45, 49, 53, 58, 60, 61, 75, 78, 101–103, 108, 111, 112, 114–116, 124, 136, 149–152, 154, 156, 157, 159–162, 164, 165, 167, 170–172, 174–181, 183–188, 190
- life cycle cost
- life testing methods 15
- m
- mechanical degradation 64
- mechanical reliability prediction ,
- methodological aspects of reliability prediction 53
- methodology for successful reliability prediction 54–63
- MIL‐HDBK‐217 predictive method 10
- MIL‐HDBK‐2017F handbook 21
- multi‐disciplinary team 35
- multi‐environmental complex of field input influences 52
- multiple‐environmental influences 89
- n
- narrow thinking 94
- Nicholls, David 25, 26
- normalized coefficient 67
- null hypothesis 54
- number of automobile recalls
- p
- parallel‐forms method
- parallel‐test model
- periodic field testing 51
- Phillip Coyle ,
- physics of failure analysis 16
- physics of failure approach 14
- physics of failure methods 12, 14, 29
- potential failure mode
- practical reliability prediction 24, 61
- prediction of reliability function 64
- prediction reliability
- primary difference between ART and ADT 51
- principles of accelerated reliability testing 176
- published author's citations 184–186
- published reviews to author's books 186–193
- r
- recalculated coefficients 66
- recounting coefficients 66
- reliability measures
- reliability modeling 29
- reliability prediction , 27–30
- reliability prediction for mean time between failures
- reliability prediction models
- reliability prediction procedure 47, 49
- reliability prediction programs 217, 218
- reliability prediction reasons , 16
- reliability prediction strategy 48, 49, 85, 86
- role of accurate definitions 49
- s
- separate simulation of input influences 88, 90
- simultaneous combination of different types of testing 64
- single‐axis vibration testing 79
- six‐axis (DOF) vibration test 95
- Smirnov criterion 56, 58, 59
- Smirnov distribution 56, 59–61
- Smirnov function of distribution 60
- The software prediction procedure
- Standard EP‐456 “Test and Reliability Guidelines” 110, 111, 113, 114
- steady‐state failure rate
- step‐by‐step solution for practical successful reliability prediction 46
- step‐stress testing 80
- successful practical reliability prediction 43, 48, 49
- successful prediction 167
- successful reliability prediction methodology 53
- successful reliability prediction strategy 48, 49
- t
- Telecordia reliability prediction procedure 21
- test‐retest reliability method
- three main categories of current prediction 10
- trends in development ART and ADT 87
- trends in development physical simulation 87
- two basic aspects of testing 75, 76
- v
- Ventcel, E.S. 62
- vibration of mobile test subject 81
- vibration testing 52, 79, 81, 94, 95
- virtual thinking
- w
- Warren Buffet 106
- Weibull analysis 15
- Wong, K.L. 29, 34
- y
- Yakhya Abdulgalimov 105
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