Marine Structural Design, Second Edition, is a wide-ranging, practical guide to marine structural analysis and design, describing in detail the application of modern structural engineering principles to marine and offshore structures. Organized in five parts, the book covers basic structural design principles, strength, fatigue and fracture, and reliability and risk assessment, providing all the knowledge needed for limit-state design and re-assessment of existing structures. Updates to this edition include new chapters on structural health monitoring and risk-based decision-making, arctic…mehr
Marine Structural Design, Second Edition, is a wide-ranging, practical guide to marine structural analysis and design, describing in detail the application of modern structural engineering principles to marine and offshore structures. Organized in five parts, the book covers basic structural design principles, strength, fatigue and fracture, and reliability and risk assessment, providing all the knowledge needed for limit-state design and re-assessment of existing structures. Updates to this edition include new chapters on structural health monitoring and risk-based decision-making, arctic marine structural development, and the addition of new LNG ship topics, including composite materials and structures, uncertainty analysis, and green ship concepts.
Dr. Yong Bai holds the position of Chair Professor at Zhejiang University (China) and is also an academician at the Norwegian Academy of Technical Sciences. He is a fellow of the US Society of Naval Architects and Marine Engineers and the UK Royal Institution of Naval Architects. With an extensive background in offshore engineering structures and pipelines, Prof. Bai has held professorships at renowned universities, significantly contributing to the global offshore oil and gas industry through his publications and innovative achievements.
Inhaltsangabe
Part I: Structural Design Principles 1. Introduction 2. Wave loads for ship design and classification 3. Loads and dynamic response for offshore structures 4. Scantling of ship's hulls by rules 5. Ship hull scantling by analysis 6. Offshore structural analysis 7. Limit-state design of offshore structures Part II: Ultimate Strength 8. Buckling/collapse of columns and beam-columns 9. Buckling and local buckling of tubular members 10. Ultimate strength of plates and stiffened plates 11. Ultimate strength of cylindrical shells 12. A theory of nonlinear finite element analysis 13. Collapse analysis of ship hulls 14. Offshore structures under impact loads 15. Offshore structures under earthquake loads Part III: Fatigue and Fracture 16. Mechanism of fatigue and fracture 17. Fatigue capacity 18. Fatigue loading and stresses 19. Simplified fatigue assessment 20. Spectral fatigue analysis and design 21. Application of fracture mechanics 22. Material selections and damage to tolerance criteria Part IV: Structural Reliability 23. Basics of structural reliability 24. Random variables and uncertainty analysis 25. Reliability of ship structures 26. Reliability-based design and code calibration 27. Fatigue reliability 28. Probability and risk based inspection planning Part V: Risk Assessment 29. Risk assessment methodology 30. Risk assessment applied to offshore structures 31. Formal safety assessment applied to the shipping industry 32. Economic risk assessment for field development 33. Human reliability assessment 34. Risk centered maintenance
Part I: Structural Design Principles 1. Introduction 2. Wave loads for ship design and classification 3. Loads and dynamic response for offshore structures 4. Scantling of ship's hulls by rules 5. Ship hull scantling by analysis 6. Offshore structural analysis 7. Limit-state design of offshore structures Part II: Ultimate Strength 8. Buckling/collapse of columns and beam-columns 9. Buckling and local buckling of tubular members 10. Ultimate strength of plates and stiffened plates 11. Ultimate strength of cylindrical shells 12. A theory of nonlinear finite element analysis 13. Collapse analysis of ship hulls 14. Offshore structures under impact loads 15. Offshore structures under earthquake loads Part III: Fatigue and Fracture 16. Mechanism of fatigue and fracture 17. Fatigue capacity 18. Fatigue loading and stresses 19. Simplified fatigue assessment 20. Spectral fatigue analysis and design 21. Application of fracture mechanics 22. Material selections and damage to tolerance criteria Part IV: Structural Reliability 23. Basics of structural reliability 24. Random variables and uncertainty analysis 25. Reliability of ship structures 26. Reliability-based design and code calibration 27. Fatigue reliability 28. Probability and risk based inspection planning Part V: Risk Assessment 29. Risk assessment methodology 30. Risk assessment applied to offshore structures 31. Formal safety assessment applied to the shipping industry 32. Economic risk assessment for field development 33. Human reliability assessment 34. Risk centered maintenance
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