Robust Design Methodology For Reliability Exploring The Effects Of Variation And Uncertainty Bo Bergman by Bo Bergman, Jacques De Mare, Thomas Svensson, Sara Loren 9780470713945, 9780470748794, 0470713941, 0470748796 instant download after payment.

Many companies today utilise design for Six Sigma (DfSS) for strategic improvement of the design process, but often without explicitly describing the reliability perspective; this book explains how reliability design can relate to and work with DfSS and illustrates this with real–world problems. The contributors advocate designing for robustness, i.e. insensitivity to variation in the early stages of product design development. Methods for rational treatment of uncertainties in model assumptions are also presented.

This book

• promotes a new approach to reliability thinking that addresses the design process and proneness to failure in the design phase via sensitivity to variation and uncertainty;
• includes contributions from both academics and industry practitioners with a broad scope of expertise, including quality science, mathematical statistics and reliability engineering;
• takes the innovative approach of promoting the study of variation and uncertainty as a basis for reliability work;
• includes case studies and illustrative examples that translate the theory into practice.

Robust Design Methodology for Reliability provides a starting point for new thinking in practical reliability improvement work that will appeal to advanced designers and reliability specialists in academia and industry including fatigue engineers, product development and process/ quality professionals, especially those interested in and/ or using the DfSS framework.Content:
Chapter 1 Introduction (pages 3–14): Bo Bergman and Martin Arvidsson
Chapter 2 Evolution of Reliability Thinking – Countermeasures for Some Technical Issues (pages 15–27): Ake Lonnqvist
Chapter 3 Principles of Robust Design Methodology (pages 29–43): Martin Arvidsson and Ida Gremyr
Chapter 4 Including Noise Factors in Design Failure Mode and Effect Analysis (D?FMEA) – A Case Study at Volvo Car Corporation (pages 47–55): Ake Lonnqvist
Chapter 5 Robust Product Development Using Variation Mode and Effect Analysis (pages 57–70): Alexander Chakhunashvili, Stefano Barone, Per Johansson and Bo Bergman
Chapter 6 Variation Mode and Effect Analysis: An Application to Fatigue Life Prediction (pages 71–84): Par Johannesson, Thomas Svensson, Leif Samuelsson, Bo Bergman and Jacques de Mare
Chapter 7 Predictive Safety Index for Variable Amplitude Fatigue Life (pages 85–96): Thomas Svensson, Jacques de Mare and Par Johannesson
Chapter 8 Monte Carlo Simulation versus Sensitivity Analysis (pages 97–111): Sara Loren, Par Johannesson and Jacques de Mare
Chapter 9 Model Complexity Versus Scatter in Fatigue (pages 115–131): Thomas Svensson
Chapter 10 Choice of Complexity in Constitutive Modelling of Fatigue Mechanisms (pages 133–143): Erland Johnson and Thomas Svensson
Chapter 11 Interpretation of Dispersion Effects in a Robust Design Context (pages 145–149): Martin Arvidsson, Ida Gremyr and Bo Bergman
Chapter 12 Fatigue Damage Uncertainty (pages 151–171): Anders Bengtsson, Klas Bogsjo and Igor Rychlik
Chapter 13 Widening the Perspectives (pages 173–183): Bo Bergman and Jacques de Mare