Fracture Mechanics: Applications and Challenges :Applications and Challenges ( Volume 26 )

Publication subTitle :Applications and Challenges

Publication series :Volume 26

Author: Fuentes   M.;Elices   M.;Martín-Meizoso   A.  

Publisher: Elsevier Science‎

Publication year: 2000

E-ISBN: 9780080531991

P-ISBN(Paperback): 9780080436999

P-ISBN(Hardback):  9780080436999

Subject: O346.1 fracture theory

Language: ENG

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Description

This book contains 15 fully peer-reviewed Invited Papers which were presented at the 13th Biennial European Conference on Fracture and is a companion to the CD-ROM http://www.elsevier.com/locate/isbn/008043701xProceedings.
The organisers of the ECF 13 opted from the very beginning for an application-orientated conference, and consequently, this book contributes to the understanding of fracture phenomena, and disseminates fracture concepts and their application to the solution of engineering problems to practitioners in a wide range of fields.
The fields covered in this book can be broadly classified into: elastic-plastic fracture mechanics, fracture dynamics, fatigue and interactive processes, failure, structural integrity, coatings and materials, with applications to the following industrial sectors: transport, aerospace engineering, civil engineering, pipelines and automotive engineering.


Chapter

Front Cover

pp.:  1 – 4

Fracture Mechanics: Applications and Challenges

pp.:  4 – 5

Copyright Page

pp.:  5 – 8

Contents

pp.:  8 – 10

Foreword

pp.:  10 – 12

Chapter 1. Fracture Stress Analysis: Some "Practical" Examples

pp.:  12 – 24

Chapter 2. Some Aspects of Fatigue of Engineering Materials

pp.:  24 – 40

Chapter 3. Failures of Structures and Components which Fracture Mechanics would have Prevented

pp.:  40 – 58

Chapter 4. Interfacial Cracking in Thin Film Structures

pp.:  58 – 84

Chapter 5. Designing Against Fretting Fatigue in Aeroengines

pp.:  84 – 108

Chapter 6. Aircraft Fatigue Life Extension: Development of a Mid-Life Rework Method Based on Peening

pp.:  108 – 126

Chapter 7. Coatings for Hot Section Gas Turbine Components

pp.:  126 – 146

Chapter 8. Modeling Cyclic Deformation of Thick Thermal Barrier Coatings

pp.:  146 – 166

Chapter 9. Application of Fracture Mechanics on Japanese Automotive Industry

pp.:  166 – 174

Chapter 10. Gigacycle Fatigue of High Strength Steels Prediction and Mechanisms

pp.:  174 – 184

Chapter 11. Fatigue of Railway Axles: A Classic Problem Revisited

pp.:  184 – 194

Chapter 12. Fracture Mechanics Applied to Concrete

pp.:  194 – 222

Chapter 13. Fatigue and Fracture of Steel Bridges

pp.:  222 – 246

Chapter 14. Designing Against Ductile Fracture Propagation in Very High Strength Steel Gas Pipelines: A Review

pp.:  246 – 264

Chapter 15. Fracture Mechanics Concepts and Structural Integrity of Filament Wound Pipes

pp.:  264 – 274

Author Index

pp.:  274 – 276

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