Introduction to Reliability Engineering 3rd Edition by James Breneman, Chittaranjan Sahay, Elmer Lewis 1119640653 9781119640653

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ISBN-10 :  1119640653 

ISBN-13 :  9781119640653

Author :  James E. Breneman, Chittaranjan Sahay, Elmer E. Lewis 

Introduction to Reliability Engineering provides a thorough and well-balanced overview of the fundamental aspects of reliability engineering and describes the role of probability and statistical analysis in predicting and evaluating reliability in a range of engineering applications. Covering both foundational theory and real-world practice, this classic textbook helps students of any engineering discipline understand key probability concepts, random variables and their use in reliability, Weibull analysis, system safety analysis, reliability and environmental stress testing, redundancy, failure interactions, and more.

Introduction to Reliability Engineering 3rd Table of contents:

1 Introduction
1.1 Reliability Defined
1.2 Performance, Cost, and Reliability
1.3 Quality, Reliability, and Safety Linkage
1.4 Quality, Reliability, and Safety Engineering Tasks
1.5 Preview
Bibliography
2 Probability and Discrete Distributions
2.1 Introduction
2.2 Probability Concepts
2.3 Discrete Random Variables
Bibliography
Advanced texts in Probability
Exercises
3 The Exponential Distribution and Reliability Basics
3.1 Introduction
3.2 Reliability Characterization
3.3 Constant Failure Rate Model
3.4 Time‐Dependent Failure Rates
3.5 Component Failures and Failure Modes
3.6 Replacements
3.7 Redundancy
3.8 Redundancy Limitations
3.9 Multiply Redundant Systems
3.10 Redundancy Allocation
3.11 Redundancy in Complex Configurations
Bibliography
Exercises
4 Continuous Distributions – Part 1 Normal and Related Continuous Distributions
4.1 Introduction
4.2 Properties of Continuous Random Variables
4.3 Empirical Cumulative Distribution Function (Empirical CDF)
4.4 Uniform Distribution
4.5 Normal and Related Distributions
4.6 Confidence Intervals
4.7 Normal and Lognormal Parameters
Bibliography
5 Continuous Distributions – Part 2 Weibull and Extreme Value Distributions
5.1 Introduction
5.2 Statistics of the Weibull Distribution
Maximum‐Likelihood Estimates of β and η
Weibayes Analysis
5.3 Extreme Value Distributions
5.4 Introduction to Risk Analysis
Bibliography
Exercises
Supplement 1: Weibull Derived from Weakest Link Theory
6 Reliability Testing
6.1 Introduction
6.2 Attribute Testing (Binomial Testing)
6.3 Constant Failure Rate Estimates
6.4 Weibull Substantiation and Reliability Testing
6.5 How to Reduce Test Time
6.6 Normal and Lognormal Reliability Testing
6.7 Accelerated Life Testing
6.8 Reliability‐Enhancement Procedures
Bibliography
Exercises
Supplement 1: Tables for Weibull Zero-failure Substantiation testing
Supplement 2: Tables For Weibull Zer-failure Substantiation testing using (t/Eta)
Supplement 3: Critical Values for Cramer–Von Mises Goodness‐of‐Fit Test
Supplement 4: Other Reliability Growth Models that have been Proposed and Studied (see AFWAL‐TR‐84‐2024 for details)
Supplement 5: Chi-Square Table
7 Failure Modes and Effects Analysis – Design and Process
7.1 Introduction
7.2 Functional FMEA
7.3 Design FMEA
7.4 Process FMEA (PFMEA)
7.5 FMEA Summary
Bibliography
Exercises
Supplement 1: Shortcut Tables for Stalled FMEA Teams
Supplement 2: Future Changes in FMEA Approaches
Supplement 3: DFMEA and PFMEA Forms
8 Loads, Capacity, and Reliability
8.1 Introduction
8.2 Reliability with a Single Loading
8.3 Reliability and Safety Factors
8.4 Repetitive Loading
8.5 The Bathtub Curve – Reconsidered
Bibliography
Exercises
Supplement 1: The Dirac Delta Distribution
9 Maintained Systems
9.1 Introduction
9.2 Preventive Maintenance
9.3 Corrective Maintenance
9.4 Repair: Revealed Failures
9.5 Testing and Repair: Unrevealed Failures
9.6 System Availability
Bibliography
Exercises
10 Failure Interactions
10.1 Introduction
10.2 Markov Analysis
10.3 Reliability With Standby Systems
10.4 Multicomponent Systems
10.5 Availability
Bibliography
Exercises
11 System Safety Analysis
11.1 Introduction
11.2 Product and Equipment Hazards
11.3 Human Error
11.4 Methods of Analysis
11.5 Fault Trees
11.6 Reliability/Safety Risk Analysis
Bibliography
FMEA/FMECA
Exercises
Appendix A: Useful Mathematical Relationships
A.1 Integrals
A.2 Expansions
A.3 Solution of First‐order Linear Differential Equation
Appendix B: Binomial Failure Probability Charts
Appendix C: Ф(z): Standard Normal CDF
Appendix D: Nonparametric Methods and Probability Plotting
D.1 Introduction
D.2 Nonparametric Methods for Probability Plotting
D.3 Parametric Methods
D.4 Goodness of Fit
Bibliography
3rd Ed Answers to Odd – Numbered ExercisesnotesSet
Chapter 2 Probability and Discrete Distributions
Chapter 3 Exponential Distribution and Reliability Basics
Chapter 4 Continuous Distributions – Part 1 Normal and Related Distributions
Chapter 5 Continuous Distributions – Part 2 Weibull and Extreme Value Distributions
Chapter 6 Reliability Testing
Chapter 7 Failure Modes and Effects Analysis (FMEA) – Design and Process
Chapter 8 Loads, Capacity, and Reliability
Chapter 9 Maintained Systems
Chapter 10 Failure Interactions
Chapter 11 System Safety Analysis

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