Overview

Tools to Proactively Predict Failure The prediction of failures involves uncertainty, and problems associated with failures are inherently probabilistic. Their solution requires optimal tools to analyze strength of evidence and understand failure events and processes to gauge confidence in a design's reliability. Reliability Engineering and Risk Analysis: A Practical Guide, Second Edition has already introduced a generation of engineers to the practical methods and techniques used in reliability and risk studies applicable to numerous disciplines. Written for both practicing professionals and engineering students, this comprehensive overview of reliability and risk analysis techniques has been fully updated, expanded, and revised to meet current needs. It concentrates on reliability analysis of complex systems and their components and also presents basic risk analysis techniques. Since reliability analysis is a multi-disciplinary subject, the scope of this book applies to most engineering disciplines, and its content is primarily based on the materials used in undergraduate and graduate-level courses at the University of Maryland. This book has greatly benefited from its authors' industrial experience. It balances a mixture of basic theory and applications and presents a large number of examples to illustrate various technical subjects. A proven educational tool, this bestselling classic will serve anyone working on real-life failure analysis and prediction problems.

Full Product Details

Author:   Mohammad Modarres (University of Maryland, College Park, USA) ,  Mark P. Kaminskiy (NASA Goddard Space Flight Center, Greenbelt, Maryland, USA) ,  Vasiliy Krivtsov (Ford Motor Company, Dearborn, Michigan, USA)
Publisher:   Taylor & Francis Inc
Imprint:   CRC Press Inc
Edition:   2nd New edition
Dimensions:   Width: 17.80cm , Height: 3.00cm , Length: 25.40cm
Weight:   1.021kg
ISBN:  

9780849392474

ISBN 10:   0849392470
Pages:   470
Publication Date:   22 September 2009
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Professional & Vocational
Replaced By:   9781498745871
Format:   Mixed media product
Publisher's Status:   Out of Stock Indefinitely
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

Chapter 1 Reliability Engineering in Perspective 1.1 Why Study Reliability? 1.2 Failure Models 1.3 Failure Mechanisms 1.4 Performance Measures 1.5 Formal Definition of Reliability 1.6 Definition of Availability 1.7 Definition of Risk Chapter 2 Basic Reliability Mathematics: Review of Probability and Statistics 2.1 Introduction 2.2 Elements of Probability 2.3 Probability Distributions 2.4 Basic Characteristics of Random Variables 2.5 Estimation and Hypothesis Testing 2.6 Frequency Tables and Histograms 2.7 Goodness-of-Fit Tests 2.8 Regression Analysis Chapter 3 Elements of Component Reliability 3.1 Concept of Reliability 3.2 Common Distributions in Component Reliability 3.3 Component Reliability Model Selection 3.4 Maximum Likelihood Estimation of Reliability Distribution Parameters 3.5 Classical Nonparametric Distribution Estimation 3.6 Bayesian Estimation Procedures 3.7 Methods of Generic Failure Rate Determination Chapter 4 System Reliability Analysis 4.1 Reliability Block Diagram Method 4.2 Fault Tree and Success Tree Methods 4.3 Event Tree Method 4.4 Master Logic Diagram 4.5 Failure Mode and Effect Analysis Chapter 5 Reliability and Availability of Repairable Components and Systems 5.1 Repairable System Reliability 5.2 Availability of Repairable Systems 5.3 Use of Markov Processes for Determining System Availability 5.4 Use of System Analysis Techniques in the Availability Calculations of Complex Systems Chapter 6 Selected Topics in Reliability Modeling 6.1 Probabilistic Physics-of-Failure Reliability Modeling 6.2 Software Reliability Analysis 6.3 Human Reliability 6.4 Measures of Importance 6.5 Reliability-Centered Maintenance 6.6 Reliability Growth Chapter 7 Selected Topics in Reliability Data Analysis 7.1 Accelerated Life Testing 7.2 Analysis of Dependent Failures 7.3 Uncertainty Analysis 7.4 Use of Expert Opinion for Estimating Reliability Parameters 7.5 Probabilistic Failure Analysis Chapter 8 Risk Analysis 8.1 Determination of Risk Values8.2 Formalization of Quantitative Risk Assessment 8.3 Probabilistic Risk Assessment 8.4 Compressed Natural Gas Powered Buses: A PRA Case Study 8.5 A Simple Fire Protection Risk Analysis 8.6 Precursor Analysis Appendices Index

Reviews

... explores the practical aspects of the application of theory rather than the derivation of theory. ... goes beyond statistical niceties and into the territory of dealing with real-world problems. The ultimate practical aspect of the book is the link between reliability and risk analysis. By dealing with these two subjects in one single volume, the authors illustrate the importance of building reliability of survival as the basis for risk analysis. The arrangement of the topics is logical and concise. From the traditional introductory material to the review of reliability mathematics, the book provides information for readers who have never been exposed to reliability engineering. It then moves forward in complexity, with extensive coverage given to reliability subjects such as hardware and software reliability, reliability growth, and modeling and estimation techniques. The last chapter delves into a comprehensive discussion of risk analysis concepts and techniques. This is a very useful book for the practicing reliability engineer and can be used as a reliability engineering textbook. ... highly recommended. -Shin Ta Liu, Lynx Systems, in ASQ's Quality Progress Reviews

... explores the practical aspects of the application of theory rather than the derivation of theory. ... goes beyond statistical niceties and into the territory of dealing with real-world problems. The ultimate practical aspect of the book is the link between reliability and risk analysis. By dealing with these two subjects in one single volume, the authors illustrate the importance of building reliability of survival as the basis for risk analysis. The arrangement of the topics is logical and concise. From the traditional introductory material to the review of reliability mathematics, the book provides information for readers who have never been exposed to reliability engineering. It then moves forward in complexity, with extensive coverage given to reliability subjects such as hardware and software reliability, reliability growth, and modeling and estimation techniques. The last chapter delves into a comprehensive discussion of risk analysis concepts and techniques. This is a very useful book for the practicing reliability engineer and can be used as a reliability engineering textbook. ... highly recommended. --Shin Ta Liu, Lynx Systems, in ASQ's Quality Progress Reviews

Author Information

Mohammad Modarres is a professor of nuclear engineering and reliability engineering. His research areas are system reliability modeling, probabilistic risk analysis, probabilistic physics of failure, and uncertainty modeling and analysis. He is a consultant to several government and private organizations as well as national laboratories. Prof. Modarres has published more than 200 papers in professional journals and proceedings of conferences; three books; and a number of book chapters, edited books, and handbooks. He is a University of Maryland Distinguished Scholar-Teacher, a fellow of the American Nuclear Society, and has received a number of other awards in reliability engineering and risk assessment. Prof. Modarres received his PhD in nuclear engineering from the Massachusetts Institute of Technology (MIT) in 1979 and his MS in mechanical engineering from MIT in 1977. Mark Kaminskiy is the chief statistician at the Center of Technology and Systems Management, University of Maryland (College Park). Dr. Kaminskiy is a researcher and consultant in reliability engineering, life data analysis, and risk analysis of engineering systems. He has conducted numerous research and consulting projects funded by the government and industrial companies such as the Department of Transportation, the Coast Guard, the Army Corps of Engineers, the Navy, the Nuclear Regulatory Commission, the American Society of Mechanical Engineers, Ford Motor Company, Qualcomm Inc., and several other engineering companies. He has taught several graduate courses on reliability engineering at the University of Maryland. Dr. Kaminskiy is the author or coauthor of over 50 publications in journals, conference proceedings, and reports. Vasiliy Krivtsov is a senior staff technical specialist in reliability and statistical analysis with Ford Motor Company. He holds MS and PhD degrees in electrical engineering from Kharkov Polytechnic Institute, Ukraine, and a PhD in reliability engineering from the University of Maryland. Dr. Krivtsov is the author or coauthor of over 40 professional publications, including a book on reliability engineering and risk analysis, nine patented inventions, and three Ford trade secret inventions. He is an editor of Reliability Engineering and System Safety journal and is a member of the IEEE Reliability Society. Prior to Ford, Dr. Krivtsov held the position of associate professor of electrical engineering in Ukraine and that of a research affiliate at the Center for Reliability Engineering, University of Maryland. Further information on Dr. Krivtsov's professional activity is available at http://www.krivtsov.net.

Tab Content 6

Author Website:  

Customer Reviews

Recent Reviews

No review item found!

Add your own review!

Countries Available

All regions