Maximum Load Carrying Capacity Estimation of The Ship and Offshore Structures by Progressive Collapse Approach

1. [1] Paik, J.K., Thayamballi, A.K. : Ultimate limit state design of steel-plated structures. Chichester, UK: John Wiley & Sons Ltd; 2003.Search in Google Scholar

2. Smith, C.S. :. Influence of local compressive failure on ultimate longitudinal strength of a ship’s hull. PRADSInternational Symposium on Practical Design in Ship Building, Tokyo-Japan, (1977), pp. 73-79.Search in Google Scholar

3. URL-1: http://www.vesselfinder.com/news/1223-UPDATE-MOL-Comfort-Sank, 2013.Search in Google Scholar

4. Ueda, Y., Rashed, S.M.H. : ISUM (Idealized Structural Unit Method) Applied to Marine Structures. Transactions of JWRI, Vol. 20 (1991), No.1, pp.123-136.Search in Google Scholar

5. Dow, R.S., 1991. Testing and Analysis of a 1/3 Scale Welded Steel Frigate Model, Proc. Int. Conf. on Advances in Marine Structures, ARE, 749-773.Search in Google Scholar

6. Paik, J.K., Mansour, A. A. : Simple formulation for predicting the ultimate strength of ships. Journal of Marine Science Technology, Vol. 1 (1995), pp. 52-62.Search in Google Scholar

7. Ozguc, O. : Hull girder ultimate strength and fracture toughness of damaged marine structures. PhD Thesis, Universities of Glasgow and Strathclyde, Glasgow, 2006.Search in Google Scholar

8. Benson S. : Progressive collapse assessment of lightweight ship structures. PhD Thesis, Newcastle University, Newcastle, 2011.Search in Google Scholar

9. Tayyar, G.T. : Determination of ultimate strength of the ship girder. PhD Thesis, İstanbul Technical University, İstanbul, 2011.Search in Google Scholar

10. Olmez, H. : Ultimate strength estimation of ship hull girders by progressive collapse analysis approach. PhD Thesis, Karadeniz Technical University, Trabzon, 2014.Search in Google Scholar

11. Paik, J.K., Wang, G., Kim, B.J., Thayamballi, A.K. : Ultimate limit state design of ship hulls. SNAME Transactions, Vol. 110 (2002), pp. 85-114.Search in Google Scholar

12. Andric, J., Kitarovic, S., Bicak, M. : IACS incrementaliterative method in progressive collapse analysis of various hull girder structures. Brodogradnja/Shıpbuıldıng, Vol. 65 (2014), No. 1, pp. 65-78.Search in Google Scholar

13. Kim, D.K., Park, D.H., Kim, H.B., Kim, B.J., Seo, J.K., Paik, J.K. : Lateral pressure effects on the progressive hull collapse behaviour of a Suezmax-class tanker under vertical bending moments. Ocean Engineering, Vol. 63 (2013), pp. 112-121.Search in Google Scholar

14. Benson, S., Downes, J., Dow, R.S. : Compartment level progressive collapse analysis of lightweight ship structures. Marine Structures, Vol.31 (2013), pp.44-62.Search in Google Scholar

15. Rutherford, S.E., Caldwell, J.B. : Ultimate strength of ships: a case study. Trans Soc. Nav. Archit. Mar Eng., Vol. 98 (1990), pp. 441-471.Search in Google Scholar

16. von Karman, T., Sechler, E.E. ve Donnell, L.H. : Strength of thin plates in compression. ASME Trans, Vol. 54 (1932), pp. 553-557.Search in Google Scholar

17. Marguerre, K.. : Zur theorie der gekrummmter platte grosser formanderung Proc. 5th Int. Congress Appl. Mech., Vol. 93 (1938).Search in Google Scholar

18. Murray, N.W., Introduction to the theory of thin-walled structures. Clarendon Press, Oxford, 1984.Search in Google Scholar

19. Smith, C. S. : Compressive strength of welded steel ship grillages. Transactions of the Royal Institution of Naval Architects, Vol. 118 (1976), pp. 325-359.Search in Google Scholar

20. Paik J.K., Thayamballi A.K., Kim B.J.: Large deflection orthotropic plate approach to develop ultimate strength equations for stiffened panels under combined biaxial compression/tension and lateral pressure. Thin-Wall Structures, Vol. 39 (2001), No.3, pp. 215-246.Search in Google Scholar

21. Hughes, O. and Paik, J. K. : Ship structural analysis and design. SNAME, New Jersey, 2010.Search in Google Scholar

22. IACS, Common structural rules for double hull oil tankers. International Association of Classification Societies, 2012.Search in Google Scholar

23. Technical Committee VI.2 : Ultimate Hull Girder Strength. Proceedings of the 14th International Ship and Offshore Structures Congress, Vol.2 (2000), Nagasaki.Search in Google Scholar

24. Technical Committee III.1. Ultimate strength, Proceedings of the 18th International Ship and Offshore Structures Congress, Vol.1 (2012), Rostock.Search in Google Scholar