Reliability Engineering Updated throughout for the second edition, Reliability Engineering: A Life Cycle Approach draws on the author’s global industry experience to demonstrate the invaluable role reliability engineers play in the entire life cycle of a plant. Applicable to both high-cost, cutting-edge plants and to plants operating under serious budget constraints, this textbook uses a practical approach to cover the theory of reliability engineering, alongside the design, operation, and maintenance required in a plant. This textbook has been updated to cover the modern standards of maintenance practice, most notably the ISO 55 000 standards. It also covers linear programming, failure analysis, fnancial management, and analysis. This textbook refers to case studies throughout. This textbook will be of interest to students and engineers in the feld of reliability, mechanical, manufacturing, and industrial engineering. It will also be relevant to automotive and aerospace engineers. Reliability Engineering A Life Cycle Approach Second Edition Dr Edgar Bradley Second edition published 2023 by CRC Press 6000 Broken Sound Parkway NW, Suite 300, Boca Raton, FL 33487–2742 and by CRC Press 4 Park Square, Milton Park, Abingdon, Oxon, OX14 4RN CRC Press is an imprint of Taylor & Francis Group, LLC © 2023 Edgar Bradley First edition published by CRC Press 2017 Reasonable efforts have been made to publish reliable data and information, but the author and publisher cannot assume responsibility for the validity of all materials or the consequences of their use. The authors and publishers have attempted to trace the copyright holders of all material reproduced in this publication and apologize to copyright holders if permission to publish in this form has not been obtained. If any copyright material has not been acknowledged please write and let us know so we may rectify in any future reprint. 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ISBN: 978-1-032-35337-1 (hbk) ISBN: 978-1-032-35349-4 (pbk) ISBN: 978-1-003-32648-9 (ebk) DOI: 10.1201/9781003326489 Typeset in Times by Apex CoVantage, LLC Contents Foreword to the First Edition .................................................................................xvii Preface..................................................................................................................... xix Author ..................................................................................................................... xxi Introduction ...........................................................................................................xxiii Chapter 1 Reliability Fundamentals I: Component Reliability ............................ 1 Introduction.......................................................................................... 1 The Importance of Reliability ......................................................... 1 History.................................................................................................. 1 Defnitions............................................................................................ 2 Reliability ........................................................................................ 2 Maintainability ................................................................................ 2 Availability ...................................................................................... 2 Unreliability..................................................................................... 3 Unavailability .................................................................................. 3 Component ...................................................................................... 3 Correlation Coeffcient .................................................................... 3 System ............................................................................................. 3 Failure.............................................................................................. 3 Failure Rate...................................................................................... 4 Failure Probability Density Function .............................................. 4 Sample............................................................................................. 4 Population........................................................................................ 4 Acronyms ............................................................................................. 4 Basic Statistics...................................................................................... 5 Probability ....................................................................................... 5 Assignment...................................................................................... 6 The Failure Probability Density Function ....................................... 6 Three Common Failure Patterns...................................................... 7 The Negative Exponential Distribution........................................... 8 The Mathematics of Randomness ................................................... 9 The Normal Distribution ............................................................... 10 The Weibull Distribution ............................................................... 10 The Bathtub Curve......................................................................... 13 Weibull Analysis............................................................................ 13 Problems with Weibull................................................................... 17 Weibull Cautions ........................................................................... 19 Using Weibull When Very Little Data Are Available..................... 19 Assignments ....................................................................................... 20 Assignment 1.1: Weibull Familiarisation ...................................... 20 Assignment 1.2: Weibull Problem................................................. 20 v vi Contents Assignment 1.3: Another Weibull Problem................................... 20 Assignment 1.4: Spring Design..................................................... 21 Assignment 1.5: Weibull Analysis of Rolling Element Bearings............................................................................ 21 Assignment 1.6: New Era Fertilizer Plant..................................... 22 Assignment 1.7: The Life History of a Hillman Vogue Sedan................................................................................ 25 Note .................................................................................................... 30 Chapter 2 Reliability Fundamentals II: System Reliability.................................31 A Note of Caution .............................................................................. 33 System Confgurations ....................................................................... 34 Redundancy ................................................................................... 34 M-Out-of-N Redundancy ................................................................... 35 System Reliability Prediction............................................................. 37 Availability and Maintainability......................................................... 39 The Maintainability Equation............................................................. 40 The Equations for System Availability ............................................... 40 Storage Capacity (Figure 2.10) .......................................................... 41 Reduced-Capacity States.................................................................... 42 Other Forms of System Reliability Analysis...................................... 43 Method 1: Deconstruction Method..................................................... 44 Method 2: Cut Sets............................................................................. 44 Monte Carlo Simulation ..................................................................... 45 Markov Simulation............................................................................. 45 Interconnections ................................................................................. 47 Laplace Analysis................................................................................. 48 Failure Modes and Effects Analysis (FMEA) and Failure Modes and Effects Criticality Analysis (FMECA).............................. 49 History .......................................................................................... 49 Flavours of FMEA/FMECA ............................................................... 50 Process vs Design or Product FMEA/FMECA.................................. 50 Design FMECA.................................................................................. 53 Which Templates to Use?................................................................... 53 Basic Analysis Procedure for an FMEA or FMECA ......................... 53 Advantages of the FMEA/FMECA Process....................................... 54 Limitations of the FMEA/FMECA Process....................................... 54 FMEA of a Scraper Winch ................................................................. 55 Operation............................................................................................ 55 Common Failures and Recent Improvements .................................... 56 Assignment......................................................................................... 58 Fault Tree Analysis............................................................................. 58 Assignment......................................................................................... 61 Additional Assignments ..................................................................... 62 Assignment 2.1.............................................................................. 62 Contents vii The V1 ...................................................................................... 62 Assignment 2.2.............................................................................. 62 The Parallel System of Conveyors............................................ 62 Assignment 2.3.............................................................................. 62 Availability Upgrade................................................................. 62 Assignment 2.4.............................................................................. 62 Laplace Calculation .................................................................. 62 Assignment 2.5.............................................................................. 62 A System Availability Prediction.............................................. 62 Abbreviations ..................................................................................... 63 Notes................................................................................................... 64 Chapter 3 Maintenance Optimisation................................................................. 65 Maintenance—Raison D’être............................................................. 65 Know Your Plant, Keep It Good as New............................................ 65 Data Collection................................................................................... 69 The Big Five....................................................................................... 70 Maintenance Optimisation ................................................................. 71 RCM................................................................................................... 72 The RCM Process............................................................................... 73 The RCM Decision Diagram.............................................................. 74 On-Condition Inspection Task............................................................ 74 Scheduled Rework.............................................................................. 74 Scheduled Discard.............................................................................. 75 Acronyms ........................................................................................... 75 The RCM Failure Modes and Effects Analysis.................................. 75 Alternative and Modifed Forms of RCM .......................................... 76 Summary of the RCM Output............................................................ 77 An RCM Example.............................................................................. 77 Economic Evaluation ......................................................................... 78 Total Productive Maintenance, TPM.................................................. 78 The Five Pillars Defnition of TPM.................................................... 80 The Six Major Losses (Manufacturing Industry)............................... 80 The Eight Major Losses (Process Industry)....................................... 80 The Primary TPM Metric: OEE......................................................... 80 The Goals of TPM.............................................................................. 81 Zero Breakdowns ............................................................................... 81 Zero Adjustments ............................................................................... 82 Zero Idling and Zero Minor Stoppages.............................................. 83 Speed Loss.......................................................................................... 83 Quality Problems................................................................................ 83 Semantics in Maintenance Management: Explanation and Qualifcation ..................................................................... 85 ISO 55000 ......................................................................................... 88 Wrench Time...................................................................................... 90 viii Contents Takeout: Panel—Work Sampling....................................................... 92 Takeout: End of Panel ........................................................................ 92 Estimating Job Times ......................................................................... 94 Note.................................................................................................. 141 Chapter 4 Condition Monitoring........................................................................143 The Four Kinds of Maintenance....................................................... 143 The Major Types of Condition Monitoring...................................... 145 Vibration Monitoring........................................................................ 145 The Time Domain........................................................................ 145 The Frequency Domain ............................................................... 145 The Measurement of Vibration.................................................... 146 Positioning of Transducers .......................................................... 148 Detection of Various Vibration Problems .................................... 148 Resonance.................................................................................... 150 Unbalance.................................................................................... 150 Misalignment............................................................................... 150 Rolling Element Bearings............................................................ 150 Ultrasonics................................................................................... 152 Plain Bearings.............................................................................. 152 Gearboxes.................................................................................... 154 Sidebands..................................................................................... 154 Compressors ................................................................................ 156 Fans.............................................................................................. 157 Oil Analysis...................................................................................... 157 History......................................................................................... 157 Requirements for Oil Analysis .................................................... 158 A Basic Test Programme............................................................. 159 Viscosity ................................................................................. 159 Water Content ......................................................................... 160 Acid Number .......................................................................... 160 Oxidation ................................................................................ 160 Element Analysis .................................................................... 160 Additional Oil Analysis Tests...................................................... 160 Particle Count ......................................................................... 161 Ferrography............................................................................. 161 Flash Point .............................................................................. 161 Thermography .................................................................................. 161 Chapter 5 Incident Investigation or Root Cause Analysis .................................163 Introduction...................................................................................... 163 Scope of Any Investigation............................................................... 164 Defnitions and Abbreviations.......................................................... 164 Defnitions ................................................................................... 164 Contents ix Root Cause Analysis............................................................... 164 Abbreviations and Acronyms ...................................................... 164 Root Cause Analysis............................................................... 164 Incident Investigation Techniques.................................................... 165 The Five Whys............................................................................. 165 Kepner-Tregoe and Its Derivatives .............................................. 166 Step 1: Problem Defnition ..................................................... 166 Step 2: The Problem Described in Detail: Identity, Location, Timing, Magnitude ............................................ 166 Step 3: Where Does the Malfunction NOT Occur?................ 166 Step 4: What Differences Could Have Caused the Malfunction?...................................................................... 166 Step 5: Analyse the Differences.............................................. 167 Step 6: Verify Proposed Solution............................................ 167 The ASSET Methodology ........................................................... 167 Background to the Process...................................................... 167 The Sequence of Actions in the ASSET Process.................... 168 Personnel Errors...................................................................... 168 Reliability at Work............................................................. 169 External Factors ................................................................. 169 Physical Environment ........................................................ 170 Safety Culture .................................................................... 170 Qualifcation to Perform the Task...................................... 170 Training.............................................................................. 170 Educational Background.................................................... 170 Contributors to the Identifed Errors....................................... 170 Procedural Errors.................................................................... 171 Reliability of the Procedures.............................................. 171 Assurance of Currency....................................................... 171 Scope Limitations .............................................................. 171 Adaptation to Working Conditions .................................... 172 Ergonomics ........................................................................ 172 Environmental Adaptation ................................................. 172 Task Qualifcation.............................................................. 172 Adequacy of Content ......................................................... 172 Background Support .......................................................... 172 Contributors ....................................................................... 172 Defciencies in Plant ............................................................... 173 Plant Reliability ................................................................. 173 Endurance .......................................................................... 173 Performance Limitations.................................................... 173 External Infuences............................................................. 173 Physical Environment ........................................................ 173 Operating Practices............................................................ 173 Qualifcation of Function................................................... 173 Manufacture, Storage, and Installation.............................. 173