Page 386 - Marine Structural Design
P. 386
362 Part 111 Fatigue and Fracture
Chakrabarti, S.K. (1 987), “Hydrodynamics of Offshore Structures”, Computational
Mechanics Publications.
Chakrabarti, S.K. (1991), “Strategies for Nonlinear Analysis of marine Structures”,
Report No. SSC-347, Ship Structure Committee.
Chen, Y.N. and Shin, Y.S, (1995), “Consideration of Loads for Fatigue Assessment of
Ship Structures”, Proc. Symposium and Workshop on the Prevention of Fracture in Ship
Structures, Washington, DC.
8. DNV (1998), “Fatigue Assessment of Ship Structures”, Det Norske Ventas,
Classification Notes No.30.7.
9. Faltinsen, O.M. (1990), “Sea Loads on Ships and qffshore Structures”, Cambridge
Ocean Technology Series, Cambridge University Press.
10. Francois, M., Mo, O., Fricke, W., Mitchell, K. and Healy, B. (2000), “FPSO Integrity:
Comparative Study of Fatigue Analysis Methods”, OTC 12148.
11. Friis-Hansen, P. and Winterstein, S.R. (1995), “Fatigue Damage in the Side Shell of
Ships”, Journal of Marine Structures, Vol.8(6), pp. 631-655.
12. Garrett, D.L., Gordon, R.B. and Chappell, J.F. (2002), “Mooring and Riser Induced
Damping in Fatigue Seastate”, OMAE2002-28550.
13. Hogben, N. (1985), “Global Wave Statistics”, British Maritime Technology.
14. LACS (1999), “Fatigue Assessment of Ship Structures”, International Association of
Classification Societies, Recommendation 56.1.
15. Mansour, A. and Thayamballi, A. (1993), “Probability-Based Ship Design Loads and
Load Combinations”, Report No. SSC-373, Ship Structure Committee.
16. Munse, W.H., Wibur, T.W., Telalian, M.L., Nicol, K., and Wilson, K. (1983), “Fatigue
Characetrization of Fabricated Ship Details for Design”, Report No. SSC-318, Ship
Structure Committee.
17. Nordstrom, C.D., Lacey, P.B., Grant, R. and Hee, D.D. (2002), “Zmpact of FPSO
Heading on Fatigue Design in Non-Collinear Environments”, OMAE2002-28 133.
18. Wen, Y.K. (1990), “Structural Load Modeling and Combination for Performance and
Safety Evaluation”, Elsevier.
