Reliability Engineering Handbook, Volume 1

Problems and reference sections are included in each chapter.

Preface

Chapter 1-Reliability Engineering: Its Applications and Benefits

• Objectives
• Why Reliability Engineering?
• Applications and Benefits
• Complexity of Products
• World Industrial Competition and Reliability Engineering
• Reliability Advertised
• Optimization of Reliability
• Optimization through Integrated Reliability Engineering Programs in Industry
• Case Histories of Cost Reduction through Reliability
• Reliability and Quality Control Compared
• Differences between Reliability and Quality Control
• How to Reduce the Life-Cycle Cost of Equipment while Increasing its Reliability, Maintainability, and Availability

Chapter 2-History, Development, and Accomplishments

• Reliability Engineering in Action
• A Look Ahead

Chapter 3-Reliability Defined

• Objectives
• Comprehensive Definition of Reliability
• Conditional Probability in Reliability and System Effectiveness
• Confidence Level
• No-Failure Performance
• Failure Causes and Types
• Effects of Age
• Effects of Mission Time
• Effects of Stress
• System Reliability and Availability Considerations, the Mission Profile, and Case Histories
• Mission Profile and Requirements

Chapter 4-Basic Analytical and Statistical Functions in Reliability Engineering

• Objectives
• The Five Important Analytical Functions in Reliability Engineering
• The Distribution Function
• Failure Rate Function
• Reliability Function
• Conditional Reliability Function
• Mean Life Function

Chapter 5-The Exponential Distribution

• Exponential Distribution Characteristics
• Exponential Reliability Characteristics
• Exponential Failure Rate and Mean-Time-Between-Failures Characteristics
• Determination of the Exponential Failure Rate and MTBF from Individual Time-To-Failure Data
• Determination of the Exponential Failure Rate and MTBF by Probability Plotting
• A Better Estimate of Reliability
• Applications of the Exponential Distribution
• Phenomenological Considerations for Using the Exponential Distribution

Chapter 6-The Weibull Distribution

• Weibull Distribution Characteristics
• Weibull Reliability Characteristics
• Weibull Failure Rate Characteristics
• Estimation of the Parameters of the Weibull Distribution by Probability Plotting
• Construction of the Weibull Probability Paper
• Probability of Passing a Reliability Test
• Applications of the Weibull Distribution
• Phenomenological Considerations for Using the Weibull Distribution Analysis of Probability Plots
• Choosing the Right Probability Paper

Chapter 7-The Normal Distribution

• Normal Distribution Characteristics
• Computational Methods for the Determination of the Parameters of the Normal Distribution
• Determination of the Parameters of the Normal Distribution by Probability Plotting
• Normal Reliability Characteristics
• Normal Failure Rate Characteristics
• The Truncated Normal Distribution
• Estimation of the Parameters from a Truncated Sample
• Applications of the Normal Distribution
• Phenomenological Considerations for Using the Normal Distribution

Chapter 8-The Lognormal Distribution

• Lognormal Distribution Characteristics
• Probability Plotting of the Lognormal Distribution
• Lognormal Reliability Characteristics
• Lognormal Failure Rate Characteristics
• Applications of the Lognormal Distribution
• Phenomenological Considerations for Using the Lognormal Distribution
• Appendix 8a: Derivation of the Relationships among the Parameters of the Lognormal Distribution
• Appendix 8b: Formulas to Calculate the Mean, Standard Deviation, Median, Mode, and the xth Moment about the Origin of the Lognormal Distribution When the Logarithmic Base is 10

Chapter 9-The Extreme Value Distribution

• Extreme Value Distribution Characteristics
• Extreme Value pdf’s Reliability Characteristics
• Extreme Value pdf’s Failure Rate Characteristics
• Estimation of the Parameters of the EVD by Matching Moments
• Estimation of the Parameters of the EVD by Probability Plotting
• Applications of the EVD
• Phenomenological Considerations for Using the EVD

Chapter 10-The Rayleigh Distribution

• Rayleigh Distribution Characteristics
• Rayleigh Reliability and Failure Rate Characteristics
• Estimation of the Rayleigh pdf’s Parameter
• Applications of the Rayleigh Distribution

Chapter 11-The Uniform Distribution

• Uniform Distribution Characteristics
• Uniform Reliability and Failure Rate Characteristics
• Estimation of the Uniform pdf’s Parameters
• Applications of the Uniform Distribution

Chapter 12-Early, Chance, And Wear-Out Reliability

• Introduction
• Early Failures and Their Reliability
• Chance Failures and Their Reliability
• Wear-Out Failures and Their Reliability
• Reliability of Successive Missions in Early Life
• Reliability of Successive Missions in Useful Life
• Reliability of Successive Missions in Wear-Out Life
• Importance of Unit Checkout Prior to Starting a Mission

Chapter 13-Reliability of Units with Multiple Failure Modes

• Mixed Population Model
• Appendix 13a: Some Results about the Failure Rate of a Mixed Population

Chapter 14-Reliability Bathtub Curve Models and Their Quantification

• Introduction
• Model 1
• Model 2
• Model 3
• Model 4
• Model 5

Appendix A: Rank Tables
Appendix B: Standardized Normal Distribution’s Area Tables
Appendix C: Standardized Normal Distribution’s Ordinate Values or Probability Densities
Appendix D: Percentage Points, F Distribution For F(F)=0.50
Appendix E: Critical Values for the Kolmogrov-Smirnov Goodness-Of-Fit Test

Index