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Design for Reliability provides engineers and managers with a range of tools and techniques for incorporating reliability into the design process for complex systems. It clearly explains how to design for zero failure of critical system functions, leading to enormous savings in product life-cycle costs and a dramatic improvement in the ability to compete in global markets.
Readers will find a wealth of design practices not covered in typical engineering books, allowing them to think outside the box when developing reliability requirements. They will learn to address high failure rates associated with systems that are not properly designed for reliability, avoiding expensive and time-consuming engineering changes, such as excessive testing, repairs, maintenance, inspection, and logistics.
Special features of this book include:
* A unified approach that integrates ideas from computer science and reliability engineering
* Techniques applicable to reliability as well as safety, maintainability, system integration, and logistic engineering
* Chapters on design for extreme environments, developing reliable software, design for trustworthiness, and HALT influence on design
Design for Reliability is a must-have guide for engineers and managers in R&D, product development, reliability engineering, product safety, and quality assurance, as well as anyone who needs to deliver high product performance at a lower cost while minimizing system failure.
Design for Reliability provides engineers and managers with a range of tools and techniques for incorporating reliability into the design process for complex systems. It clearly explains how to design for zero failure of critical system functions, leading to enormous savings in product life-cycle costs and a dramatic improvement in the ability to compete in global markets.
Readers will find a wealth of design practices not covered in typical engineering books, allowing them to think outside the box when developing reliability requirements. They will learn to address high failure rates associated with systems that are not properly designed for reliability, avoiding expensive and time-consuming engineering changes, such as excessive testing, repairs, maintenance, inspection, and logistics.
Special features of this book include:
* A unified approach that integrates ideas from computer science and reliability engineering
* Techniques applicable to reliability as well as safety, maintainability, system integration, and logistic engineering
* Chapters on design for extreme environments, developing reliable software, design for trustworthiness, and HALT influence on design
Design for Reliability is a must-have guide for engineers and managers in R&D, product development, reliability engineering, product safety, and quality assurance, as well as anyone who needs to deliver high product performance at a lower cost while minimizing system failure.
DEV RAHEJA is President of Raheja Consulting, Inc. For over thirty years, he has served clients in numerous industries, including aerospace, medical devices, auto, and consumer products. Raheja is also the coauthor of Assurance Technologies Principles and Practices, Second Edition (Wiley).
LOUIS J. GULLO is Senior Principal Systems Engineer at Raytheon Missile Systems in Tucson, Arizona. A retired U.S. Army Lieutenant Colonel, Gullo has more than thirty years' experience in military, space, and commercial programs. He is a Senior Member of the IEEE and Chair of the IEEE Reliability Society Standards Committee.
Principles of Stress Analysis 157 Mechanical Stress Analysis or Durability Analysis 158 Finite Element Analysis 158 Probabilistic vs. Deterministic Methods and Failures 159 How Stress Analysis Aids Design for Reliability 159 Derating and Stress Analysis 160 Stress vs. Strength Curves 161 Software Stress Analysis and Testing 166 Structural Reinforcement to Improve Structural Integrity 167 References 167 11 Highly Accelerated Life Testing 169Louis J. Gullo Introduction 169 Time Compression 173 Test Coverage 174 Environmental Stresses of HALT 175 Sensitivity to Stresses 176 Design Margin 178 Sample Size 180 Conclusions 180 Reference 181 12 Design for Extreme Environments 183Steven S. Austin Overview 183 Designing for Extreme Environments 183 Designing for Cold 184 Designing for Heat 186 References 191 13 Design for Trustworthiness 193Lawrence Bernstein and C. M. Yuhas Introduction 193 Modules and Components 196 Politics of Reuse 200 Design Principles 201 Design Constraints That Make Systems Trustworthy 204 Conclusions 210 References and Notes 211 14 Prognostics and Health Management Capabilities to Improve Reliability 213Louis J. Gullo Introduction 213 PHM Is Department of Defense Policy 216 Condition-Based Maintenance vs. Time-Based Maintenance 216 Monitoring and Reasoning of Failure Precursors 217 Monitoring Environmental and Usage Loads for Damage Modeling 218 Fault Detection, Fault Isolation, and Prognostics 218 Sensors for Automatic Stress Monitoring 220 References 221 15 Reliability Management 223Joseph A. Childs Introduction 223 Planning, Execution, and Documentation 229 Closing the Feedback Loop: Reliability Assessment, Problem Solving, and Growth 232 References 233 16 Risk Management, Exception Handling, and Change Management 235Jack Dixon Introduction to Risk 235 Importance of Risk Management 236 Why Many Risks Are Overlooked 237 Program Risk 239 Design Risk 241 Risk Assessment 242 Risk Identification 243 Risk Estimation 244 Risk Evaluation 245 Risk Mitigation 247 Risk Communication 248 Risk and Competitiveness 249 Risk Management in the Change Process 249 Configuration Management 249 References 251 17 Integrating Design for Reliability with Design for Safety 253Brian Moriarty Introduction 253 Start of Safety Design 254 Reliability in System Safety Design 255 Safety Analysis Techniques 255 Establishing Safety Assessment Using the Risk Assessment Code Matrix 260 Design and Development Process for Detailed Safety Design 261 Verification of Design for Safety Includes Reliability 261 Examples of Design for Safety with Reliability Data 262 Final Thoughts 266 References 266 18 Organizational Reliability Capability Assessment 267Louis J. Gullo Introduction 267 The Benefits of IEEE 1624-2008 269 Organizational Reliability Capability 270 Reliability Capability Assessment 271 Design Capability and Performability 271 IEEE 1624 Scoring Guidelines 276 SEI CMMI Scoring Guidelines 277 Organizational Reliability Capability Assessment Process 278 Advantages of High Reliability 282 Conclusions 283 References 284 Index 285
Erscheinungsjahr: | 2012 |
---|---|
Fachbereich: | Nachrichtentechnik |
Genre: | Technik |
Rubrik: | Naturwissenschaften & Technik |
Medium: | Buch |
Inhalt: | 220 S. |
ISBN-13: | 9780470486757 |
ISBN-10: | 0470486759 |
Sprache: | Englisch |
Einband: | Gebunden |
Redaktion: |
Raheja, Dev G
Gullo, Louis J |
Herausgeber: | Dev G Raheja/Louis J Gullo |
Hersteller: |
Wiley
John Wiley & Sons |
Maße: | 235 x 157 x 23 mm |
Von/Mit: | Dev G Raheja (u. a.) |
Erscheinungsdatum: | 07.08.2012 |
Gewicht: | 0,638 kg |
DEV RAHEJA is President of Raheja Consulting, Inc. For over thirty years, he has served clients in numerous industries, including aerospace, medical devices, auto, and consumer products. Raheja is also the coauthor of Assurance Technologies Principles and Practices, Second Edition (Wiley).
LOUIS J. GULLO is Senior Principal Systems Engineer at Raytheon Missile Systems in Tucson, Arizona. A retired U.S. Army Lieutenant Colonel, Gullo has more than thirty years' experience in military, space, and commercial programs. He is a Senior Member of the IEEE and Chair of the IEEE Reliability Society Standards Committee.
Principles of Stress Analysis 157 Mechanical Stress Analysis or Durability Analysis 158 Finite Element Analysis 158 Probabilistic vs. Deterministic Methods and Failures 159 How Stress Analysis Aids Design for Reliability 159 Derating and Stress Analysis 160 Stress vs. Strength Curves 161 Software Stress Analysis and Testing 166 Structural Reinforcement to Improve Structural Integrity 167 References 167 11 Highly Accelerated Life Testing 169Louis J. Gullo Introduction 169 Time Compression 173 Test Coverage 174 Environmental Stresses of HALT 175 Sensitivity to Stresses 176 Design Margin 178 Sample Size 180 Conclusions 180 Reference 181 12 Design for Extreme Environments 183Steven S. Austin Overview 183 Designing for Extreme Environments 183 Designing for Cold 184 Designing for Heat 186 References 191 13 Design for Trustworthiness 193Lawrence Bernstein and C. M. Yuhas Introduction 193 Modules and Components 196 Politics of Reuse 200 Design Principles 201 Design Constraints That Make Systems Trustworthy 204 Conclusions 210 References and Notes 211 14 Prognostics and Health Management Capabilities to Improve Reliability 213Louis J. Gullo Introduction 213 PHM Is Department of Defense Policy 216 Condition-Based Maintenance vs. Time-Based Maintenance 216 Monitoring and Reasoning of Failure Precursors 217 Monitoring Environmental and Usage Loads for Damage Modeling 218 Fault Detection, Fault Isolation, and Prognostics 218 Sensors for Automatic Stress Monitoring 220 References 221 15 Reliability Management 223Joseph A. Childs Introduction 223 Planning, Execution, and Documentation 229 Closing the Feedback Loop: Reliability Assessment, Problem Solving, and Growth 232 References 233 16 Risk Management, Exception Handling, and Change Management 235Jack Dixon Introduction to Risk 235 Importance of Risk Management 236 Why Many Risks Are Overlooked 237 Program Risk 239 Design Risk 241 Risk Assessment 242 Risk Identification 243 Risk Estimation 244 Risk Evaluation 245 Risk Mitigation 247 Risk Communication 248 Risk and Competitiveness 249 Risk Management in the Change Process 249 Configuration Management 249 References 251 17 Integrating Design for Reliability with Design for Safety 253Brian Moriarty Introduction 253 Start of Safety Design 254 Reliability in System Safety Design 255 Safety Analysis Techniques 255 Establishing Safety Assessment Using the Risk Assessment Code Matrix 260 Design and Development Process for Detailed Safety Design 261 Verification of Design for Safety Includes Reliability 261 Examples of Design for Safety with Reliability Data 262 Final Thoughts 266 References 266 18 Organizational Reliability Capability Assessment 267Louis J. Gullo Introduction 267 The Benefits of IEEE 1624-2008 269 Organizational Reliability Capability 270 Reliability Capability Assessment 271 Design Capability and Performability 271 IEEE 1624 Scoring Guidelines 276 SEI CMMI Scoring Guidelines 277 Organizational Reliability Capability Assessment Process 278 Advantages of High Reliability 282 Conclusions 283 References 284 Index 285
Erscheinungsjahr: | 2012 |
---|---|
Fachbereich: | Nachrichtentechnik |
Genre: | Technik |
Rubrik: | Naturwissenschaften & Technik |
Medium: | Buch |
Inhalt: | 220 S. |
ISBN-13: | 9780470486757 |
ISBN-10: | 0470486759 |
Sprache: | Englisch |
Einband: | Gebunden |
Redaktion: |
Raheja, Dev G
Gullo, Louis J |
Herausgeber: | Dev G Raheja/Louis J Gullo |
Hersteller: |
Wiley
John Wiley & Sons |
Maße: | 235 x 157 x 23 mm |
Von/Mit: | Dev G Raheja (u. a.) |
Erscheinungsdatum: | 07.08.2012 |
Gewicht: | 0,638 kg |