by Dimitri B. Kececioglu, and Dimitri Kececioglu,
2002 (576 pages)
ISBN:9781932078015
Widely used in engineering education and industrial practice, this handbook provides a comprehensive, systematic presentation of today's reliability engineering for optimized design engineering of products, parts, components and equipment.
Table of Contents
Reliability Engineering Handbook, Volume 2
Preface
Chapter 1
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Reliability Of Series Systems
Chapter 2
Reliability of Parallel Systems
Chapter 3
Reliability of Standby Systems
Chapter 4
Applications of the Binomial and Poisson Distributions to System Reliability Prediction
Chapter 5
Methods of Reliability Prediction for Complex Systems
Chapter 6
Reliability of Systems with Multimode Function and Logic
Chapter 7
Reliability of Systems Operating at Various Levels of Stress During a Missing
Chapter 8
Load-Sharing Reliability
Chapter 9
Reliability of Static Switches
Chapter 10
Reliability of Cyclic Switches
Chapter 11
Fault Tree Analysis
Chapter 12
System Reliability Prediction and Target Reliability
Chapter 13
Limit Law of The Time-to-Failure Distribution of A Complex System: Drenick's Theorem
Chapter 14
Reliability of Components with a Policy of Replacing those that Fail by a Prescribed Operating Time
Chapter 15
Reliability Allocation: Apportionment
Chapter 16
Reliability Growth
Chapter 17
Failure Modes, Effects, and Criticality Analysis
Appendix A
Rank Tables
Appendix D
Percentage Points, F-Distribution for F(F) = 0.50
Appendix B
Standardized Normal Distribution's Area Tables
Appendix C
Standardized Normal Distribution's Ordinate Values or Probability Densities
Appendix E
Critical Values for the Kolmogorov-Smirnov Goodness-of-Fit Test
