Книга на английском языке
Fatigue Design of Marine Structures provides students and professionals 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. Industry expert Inge Lotsberg brings more than 40 years of experience in design and standards-setting to this comprehensive guide to the basics of fatigue design of welded structures. Topics covered include laboratory testing, S-N data, different materials, different environments, stress concentrations, residual stresses, acceptance criteria, non-destructive testing, improvement methods, probability of failure, bolted connections, grouted connections, and fracture mechanics.
Featuring 18 chapters, 300 diagrams, 47 example calculations, and resources for further study, Fatigue Design of Marine Structures is intended as the complete reference work for study and practice.
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 40 years of practical experience with design and verification of steel structures, linear and nonlinear 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 member and chairman in committees for developments of fatigue design standards within NORSOK and ISO.
Contents
Preface
Acknowledgments
Introduction
1 Fatigue Degradation Mechanism and Failure Modes
2 Fatigue Testing and Assessment of Test Data
3 Fatigue Design Approaches
4 S-N Curves
5 Stresses in Plated Structures
6 Stress Concentration Factors for Tubular and Shell Structures Subjected to Axial Loads
7 Stresses at Welds in Pipelines. Risers, and Storage Tanks
8 Stress Concentration Factor for Joints
9 Finite Element Analysis
10 Fatigue Assessment Based on Stress Range Distributions
11 Fabrication
12 Probability off Fatigue Failure
13 Design of Bolted and Threaded Connections
14 Fatigue Analysis of Jacket Structures
15 Fatigue Analysis of Floating Platforms
16 Fracture Mechanics for Fatigue Crack Growth Analysis and Assessment of Fracture
17 Fatigue off Grouted Connections
18 Planning of In-Service Inspection for Fatigue Cracks
Appendix A: Examples of Fatigue Analysis
Appendix В: Stress Intensity Factors
References
Index