Robust Design Methodology for Reliability : Exploring the Effects of Variation and Uncertainty.
Preface Acknowledgements About the Editors Contributors PART One METHODOLOGY 1 Introduction Bo Bergman and Martin Arvidsson 1.1 Background 1.2 Failure Mode Avoidance 1.3 Robust Design 1.4 Comments and Suggestions for Further Reading References 2 Evolution of Reliability Thinking - Countermeasures fo...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Otros Autores: | , , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Hoboken :
Wiley,
2009.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- ROBUST DESIGN METHODOLOGY FOR RELIABILITY; Contents; Preface; Acknowledgements; About the Editors; Contributors; PART One METHODOLOGY; 1 Introduction; 1.1 Background; 1.1.1 Reliability and Variation; 1.1.2 Sources of Variation; 1.1.3 Sources of Uncertainties; 1.2 Failure Mode Avoidance; 1.2.1 Insensitivity to Variation
- Robustness; 1.2.2 Creative Robust Design; 1.3 Robust Design; 1.3.1 Product Modelling; 1.4 Comments and Suggestions for Further Reading; References; 2 Evolution of Reliability Thinking
- Countermeasures for Some Technical Issues; 2.1 Introduction; 2.2 Method.
- 2.3 An Overview of the Initial Development of Reliability Engineering2.4 Examples of Technical Issues and Reliability Countermeasures; 2.4.1 Severe Consequences; 2.4.2 Defective Components; 2.4.3 Undesired Production Variation; 2.4.4 Sensitivity to Noise Factors; 2.5 Discussion and Future Research; 2.6 Summary and Conclusions; References; 3 Principles of Robust Design Methodology; 3.1 Introduction; 3.2 Method; 3.3 Results and Analysis; 3.3.1 Terminology; 3.3.2 View of Variation; 3.3.3 Procedures; 3.3.4 Objective; 3.3.5 Methods and Methodologies; 3.3.6 Experimental Approach; 3.4 Discussion.
- 3.5 Conclusions3.5.1 Synthesis; 3.5.2 A Definition of Robust Design Methodology; References; PART Two METHODS; 4 Including Noise Factors in Design Failure Mode and Effect Analysis (D-FMEA)
- A Case Study at Volvo Car Corporation; 4.1 Introduction; 4.2 Background; 4.3 Method; 4.4 Result; 4.4.1 Causes Matching the Noise Factor Categories; 4.4.2 Causes not Assignable to any of the Noise Factor Categories; 4.4.3 Comments on the Result; 4.5 Discussion and Further Research; 4.6 Summary; References; 5 Robust Product Development Using Variation Mode and Effect Analysis; 5.1 Introduction.
- 5.2 Overview of the VMEA Method5.2.1 A General Procedure for VMEA; 5.3 The Basic VMEA; 5.4 The Enhanced VMEA; 5.4.1 Assessment of Sensitivities; 5.4.2 Assessment of Variation Size; 5.5 The Probabilistic VMEA; 5.6 An Illustrative Example; 5.6.1 Application of the Basic VMEA; 5.6.2 Application of the Enhanced VMEA; 5.6.3 Application of the Probabilistic VMEA; 5.7 Discussion and Concluding Remarks; Appendix: Formal Justification of the VMEA Method; References; 6 Variation Mode and Effect Analysis: An Application to Fatigue Life Prediction; 6.1 Introduction; 6.2 Scatter and Uncertainty.
- 6.3 A Simple Approach to Probabilistic VMEA6.3.1 Model for Uncertainty in Life Predictions; 6.4 Estimation of Prediction Uncertainty; 6.4.1 Estimation of Scatter; 6.4.2 Statistical Uncertainty; 6.4.3 Model Uncertainty; 6.4.4 Scatter and Uncertainty in Loads; 6.4.5 Total Prediction Uncertainty; 6.5 Reliability Assessment; 6.6 Updating the Reliability Calculation; 6.6.1 Uncertainty after Updating; 6.7 Conclusions and Discussion; References; 7 Predictive Safety Index for Variable Amplitude Fatigue Life; 7.1 Introduction; 7.2 The Load-Strength Reliability Method.