Engineering reliability is (or should be) failure oriented. The problem is to predict when or if failure will occur when a device is used. This information can then be used to determine inspection and maintenance policies as well as warranties. It can also be used to predict costs due to maintenance and eventual failure if failure occurs while the device is in operation.
CONTENTS
Preface
Acknowledgments
Introduction
1. The Finite Population Exponential Model
2. Lifetime Data Analysis
3. Counting the Number of Failures
4. Strength of Materials
5. The Economics of Maintenance and Inspection
6. Network Reliability
7. System Failure Analysis: Fault Trees
8. System Availability and Maintainability
9. Influence Diagrams
10. Making Decisions Using Influence Diagrams
Appendix
References
CONTENTS
Preface
Acknowledgments
Introduction
1. The Finite Population Exponential Model
2. Lifetime Data Analysis
3. Counting the Number of Failures
4. Strength of Materials
5. The Economics of Maintenance and Inspection
6. Network Reliability
7. System Failure Analysis: Fault Trees
8. System Availability and Maintainability
9. Influence Diagrams
10. Making Decisions Using Influence Diagrams
Appendix
References
Páginas : 219
Peso : 87 mb.
Formato : PDF.
Edición : Primera
Año de Publicación :1987
ISBN : 9780898714050
Editorial : Society for Industrial & Applied Mathematics,U.S.
Autor Richard E. Barlow, Martin Wells
| DEPOSITFILES | FILESONIC | UPLOADED | FREAKSHARE | UPLOADSTATION |
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