Fatigue Design of Marine Structures provides students and designers with a theoretical and practical background for fatigue design of marine structures including sailing ships, offshore structures for oil and gas production, and other welded structures subject to dynamic loading such as wind turbine structures.
Fatigue Design of Marine Structures provides students and designers with a theoretical and practical background for fatigue design of marine structures including sailing ships, offshore structures for oil and gas production, and other welded structures subject to dynamic loading such as wind turbine structures.
Inge Lotsberg is a Specialist Engineer and Senior Vice President at DNV GL (merger of Det Norske Veritas and Germanischer Lloyd) in Norway. He has more than forty years' practical experience with design and verification of steel structures, linear and non-linear finite element analysis, rule development, fatigue and fracture mechanics analyses, reliability analysis, and laboratory testing. The author or coauthor of 120 refereed papers, he has also served as a member and chairman in committees for the development of fatigue design standards within NORSOK and ISO.
Inhaltsangabe
1. Preface 2. Introduction 3. Fatigue degradation mechanism and failure modes 4. Fatigue testing and assessment of test data 5. Fatigue design approaches 6. S-N curves 7. Stresses in plated structures 8. Stress concentration factors for tubular and shell structures subjected to axial loads 9. Stresses at welds in pipelines, risers, and storage tanks 10. Stress concentration factor for joints 11. Finite element analysis 12. Fatigue assessment based on stress range distributions 13. Fabrication 14. Probability of fatigue failure 15. Design of bolted and threaded connections 16. Fatigue analysis of jacket structures 17. Fatigue analysis of floating platforms 18. Fracture mechanics and unstable fracture 19. Fatigue design of grouted connections 20. Planning of in-service inspection for fatigue cracks References Appendix A: examples of fatigue analysis Appendix B: stress intensity factors.
1. Preface 2. Introduction 3. Fatigue degradation mechanism and failure modes 4. Fatigue testing and assessment of test data 5. Fatigue design approaches 6. S-N curves 7. Stresses in plated structures 8. Stress concentration factors for tubular and shell structures subjected to axial loads 9. Stresses at welds in pipelines, risers, and storage tanks 10. Stress concentration factor for joints 11. Finite element analysis 12. Fatigue assessment based on stress range distributions 13. Fabrication 14. Probability of fatigue failure 15. Design of bolted and threaded connections 16. Fatigue analysis of jacket structures 17. Fatigue analysis of floating platforms 18. Fracture mechanics and unstable fracture 19. Fatigue design of grouted connections 20. Planning of in-service inspection for fatigue cracks References Appendix A: examples of fatigue analysis Appendix B: stress intensity factors.
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