Fatigue Design of Components ( Volume 22 )

Publication series :Volume 22

Author: Marquis   G.;Solin   J.  

Publisher: Elsevier Science‎

Publication year: 1997

E-ISBN: 9780080531601

P-ISBN(Paperback): 9780080433189

P-ISBN(Hardback):  9780080433189

Subject: TB301 engineering mechanics of material (strength)

Language: ENG

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Description

This volume contains a selection of papers presented at Fatigue Design 95 held in Helsinki, Finland from 5-8 September 1995. The papers have been peer reviewed and present practical aspects for the design of components and structures to avoid fatigue failure.
Topics covered include: fatigue design experiences, ground vehicle components, component reliability, multiaxial fatigue, notch analysis, service loading, welded structures, probabilistics aspects in fatigue, fatigue design optimization.

Chapter

Front Cover

pp.:  1 – 3

Fatigue Design of Components

pp.:  3 – 5

Copyright Page

pp.:  5 – 8

Contents

pp.:  8 – 10

Preface

pp.:  10 – 12

Chapter 1. Fatigue Assessment of an Automotive Suspension Component using Deterministic and Probabilistic Approaches

pp.:  12 – 28

Chapter 2. A Fatigue Life Assessment Methodology for Automotive Components

pp.:  28 – 38

Chapter 3. Fatigue Strength Prediction for Grey Cast Iron Components of Complex Geometry

pp.:  38 – 48

Chapter 4. Defect Sensitivity in Nodular Cast Iron for Safety Critical Components

pp.:  48 – 60

Chapter 5. Fatigue Design and Quality Control of Flapper Valves

pp.:  60 – 70

Chapter 6. Durabillty Assessments of Straddle Carrier Wheel Supports

pp.:  70 – 84

Chapter 7. Fatigue Design of Pressed Steel Sheet

pp.:  84 – 96

Chapter 8. A Multiaxial Fatigue Life Prediction Program

pp.:  96 – 108

Chapter 9. Fatigue Failure of a Connecting Rod

pp.:  108 – 124

Chapter 10. Notch Stress-Strain Analysis in Multiaxial Fatigue

pp.:  124 – 136

Chapter 11. Fracture Mechanical Fatigue Analysis of Railway Wheels with Rolling Defects

pp.:  136 – 146

Chapter 12. A Novel Fatigue Analysis Approach for Tubular Welded Joints

pp.:  146 – 156

Chapter 13. Fatigue Design of Welded Thin Sheet Structures

pp.:  156 – 164

Chapter 14. Fatigue of Welded Joints Under Complex Loading

pp.:  164 – 176

Chapter 15. Effectiveness of Improvement Methods for Welded Connections Subjected to Variable Amplitude Loading

pp.:  176 – 186

Chapter 16. Influence of Life Improvement Techniques on Different Steel Grades Under Fatigue Loading

pp.:  186 – 204

Chapter 17. On Multiaxial Fatigue Testing Time Reduction

pp.:  204 – 214

Chapter 18. Standard Fatigue Tests for Components

pp.:  214 – 226

Chapter 19. A New Method for Fatigue Life Improvement of Screws

pp.:  226 – 238

Author Index

pp.:  238 – 240

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