Produktbild: Fatigue of Materials and Structures

Fatigue of Materials and Structures Fundamentals

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

02.08.2010

Herausgeber

André Pineau + weitere

Verlag

John Wiley & Sons Inc

Seitenzahl

524

Maße (L/B/H)

24,3/16,2/3,5 cm

Gewicht

894 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-84821-051-6

Beschreibung

Portrait

Claude Bathias is Emeritus Professor at the University Paris 10-La Defense. He started his career as a research engineer in the aerospace and military industry where he remained for 20 years before becoming director of the CNRS laboratory ERA 914 at the University of Compiegne. He has launched two international conferences about fatigue: International Conference on the Fatigue of Composite Materials (ICFC) and Very High Cycle Fatigue (VHCF).

André Pineau is Professor at Mines ParisTech and a member of the French Academy of Engineering. He has published about 300 papers in international journals and edited or co-edited 10 books. His main research fields are phase transformations, fatigue and fracture of metallic materials.

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

02.08.2010

Herausgeber

Verlag

John Wiley & Sons Inc

Seitenzahl

524

Maße (L/B/H)

24,3/16,2/3,5 cm

Gewicht

894 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-84821-051-6

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: GPSR Kontakt

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  • Produktbild: Fatigue of Materials and Structures
  • Foreword xiii

    Chapter 1. Introduction to Fatigue: Fundamentals and Methodology 1
    André PINEAU and Claude BATHIAS

    1.1. Introduction to the fatigue of materials 1

    1.2. Mechanisms of fatigue damage 10

    1.3. Test systems 13

    1.4. Structural design and fatigue 15

    1.5. Fatigue of polymers, elastomers and composite materials 16

    1.6. Conclusion 18

    1.7. Bibliography 19

    Chapter 2. Modeling of Fatigue Strength and Endurance Curve 23
    Henri-Paul LIEURADE

    2.1. Introduction 23

    2.2. Nature and aspect of the scatter of fatigue test results 25

    2.3. Determination of the endurance limit 27

    2.4. Estimation methods of fatigue resistance and standard deviation with N cycles 27

    2.5. Mathematical representations and plotting methods of the Wöhler curve 47

    2.6. Estimation of the cycle number N for a given level of stress amplitude 55

    2.7. Influence of mechanical parameters on endurance 59

    2.8. Relationship between endurance and mechanical characteristics (of steels) 62

    2.9. Bibliography 66

    Chapter 3. Fatigue Crack Initiation 69
    Paul RABBE and Louis ANQUEZ

    3.1. Introduction 69

    3.2. Physical mechanisms of crack initiation 70

    3.3. Methods of evaluating crack initiation 81

    3.4. Practical method of structure calculation 97

    3.5. Bibliography 109

    Chapter 4. Low-cycle Fatigue 113
    André PINEAU

    4.1. Introduction 113

    4.2. Phenomenological description of low-cycle fatigue 122

    4.3. Adaptation mechanism and cracking during low-cycle fatigue 134

    4.4. Conclusion 172

    4.5. Acknowledgements 172

    4.6. Bibliography 173

    Chapter 5. Gigacycle Fatigue 179
    Claude BATHIAS

    5.1. Introducing the real-life fatigue life of machines 179

    5.2. Testing process 181

    5.3. Systems of piezoelectric fatigue machines 188

    5.4. SN curves above 107 cycles 190

    5.5. Initiation mechanism under gigacycle fatigue 209

    5.6. Assessing fatigue strength 219

    5.7. Conclusion 226

    5.8. Bibliography 226

    Chapter 6. Fatigue Crack Growth Laws 231
    Jacques MASOUNAVE, Jean-Paul BAÏLON and John-Ivan DICKSON

    6.1. Introduction 231

    6.2. Models describing crack propagation 232

    6.3. Critical evaluation of the models 249

    6.4. Future plans 258

    6.5. Conclusion 260

    6.6. Bibliography 261

    Chapter 7. Short Crack Propagation 269
    Yves VERREMAN

    7.1. Introduction 269

    7.2. Theoretical considerations showing the limits of LEFM 271

    7.3. Experimental observations 275

    7.4. Role of closure in the behavior of short cracks 285

    7.5. Modeling of the behavior of short cracks 291

    7.6. Conclusion 302

    7.7. Acknowledgements 303

    7.8. Bibliography 303

    Chapter 8. Plastic Deformation Mechanisms at the Crack Tip 311
    Claude BATHIAS

    8.1. Introduction 311

    8.2. Fatigue plastic deformation at the crack tip 312

    8.3. Microfractographic aspects of the fatigue crack 323

    8.4. Model based on displacement on crack tip opening 328

    8.5. Cyclic stress hardening at the crack tip 331

    8.6. Model based on the effective stress intensity factor 334

    8.7. Conclusion 342

    8.8. Bibliography 343

    Chapter 9. Local Approach to Fatigue Crack Growth 347
    Sylvie POMMIER

    9.1. Introduction 347

    9.2. Plasticity at the crack tip 348

    9.3. Cyclic plasticity at the crack tip 355

    9.4. Local approach to fatigue crack growth 366

    9.5. Conclusion 372

    9.6. Bibliography 373

    Chapter 10. Corrosion Fatigue 377
    Régis PELLOUX and Jean-Marc GENKIN

    10.1. Introduction 377

    10.2. Crack initiation 378

    10.3. Short cracks 384

    10.4. Long crack propagation 385

    10.5. Conclusions 397

    10.6. Bibliography 397

    Chapter 11. Effect of Environment 401
    Jean PETIT and Christine SARRAZIN-BAUDOUX

    11.1. Introduction 401

    11.2. Effect of environment on lifetime under high-cycle fatigue conditions 403

    11.3. Influence of the environment on fatigue crack propagation 411

    11.4. Conclusion 443

    11.5. Bibliography 444

    Chapter 12. Fatigue under Variable Amplitude Loadings 457
    Thierry PALIN-LUC

    12.1. Introduction 457

    12.2. Variable amplitude loadings 460

    12.3. Fatigue tests under variable amplitude loadings 478

    12.4. Factors influencing the test results under variable amplitude loading 486

    12.5. Fatigue lifetime assessment under variable amplitude loading 493

    12.6. Conclusion 497

    12.7. Bibliography 498

    List of Authors 503

    Index 505