Ultimate strength analysis of a bulk carrier hull girder under alternate hold loading condition – A case study

Chen, 1983, Ultimate strength of ship structures, SNAME Trans, 91, 149 Kutt, 1985, Evaluation of the longitudinal ultimate strength of various ship hull configurations, SNAME Trans, 93, 33 Valsgård S, Jorgensen L, Boe AA, Thorkildsen H, Ultimate hull girder strength margins and present class requirements. SNAME symposium 91 on marine structural inspection, maintenance and monitoring, Arlington; March 1991. B 1-19. Ueda, 1984, The Idealized Structural Unit Method and Its Application to Deep Girder Structures, Comput Struct, 18, 277, 10.1016/0045-7949(84)90126-3 Smith, 1977, Influence of local compressive failure on ultimate longitudinal strength of a ship's hull, Trans PRADS, 73 Caldwell, 1965, Ultimate longitudinal strength, Trans RINA, 107, 411 Ueda, 1995, Buckling and ultimate strength interaction in plates and stiffened panels under combined inplane biaxial and shearing forces, Mar Struct, 8, 1, 10.1016/0951-8339(95)90663-F Yao, 1991, Progressive collapse analysis of a ship's hull under longitudinal bending, J Soc Naval Arch Jpn, 170, 449, 10.2534/jjasnaoe1968.1991.170_449 Yao, 1992, Progressive collapse analysis of a ship's hull under longitudinal bending (2nd report), J Soc Naval Arch Jpn, 172, 437, 10.2534/jjasnaoe1968.1992.172_437 Mansour A, Thayamballi A, Ultimate strength of a Ship's hull girder. Ship structure committee report, SSC-299; 1980. Moan T, Shu Z, Drummen I, Amlashi HKK, Comparative reliability analysis of ships – considering different ship types and the effect of ship operations on loads. Trans SNAME, Florida; 2006. Japan Shipbuilding Research Association (JSRA), Investigation into structural safety of aged ships. Report of no.74 rule and regulation panel; 1999. p. 35–50 [in Japanese]. Østvold TK, Steen E, Holtsmark G, Nonlinear strength analyses of a bulk carrier – a case study. In: Proceedings of the ninth PRADS, STG, Hamburg; 2004. CSR-BC, 2006 Amlashi HKK, Moan T, Ultimate strength analysis of a bulk carrier hull girder under alternate hold loading condition – a case study, Part 2: double bottom bending and stress redistribution. Mar Struct; submitted for publication. DNV, Rules for classification of ships; July 2006. Yao T, et al., Report committee VI.2: ultimate hull girder strength. In: Proceedings of the 14th international ship and offshore structures congress, Nagasaki, Japan; 2000. p. 321–91. ABAQUS/Standard, 2006 ABAQUS, 2006 Amlashi HKK, Moan T, On the strength assessment of pitted stiffened plates under biaxial compression loading. In: 24rd international conference on offshore mechanics and arctic engineering, OMAE 2005, Halkidiki, Greece; June 2005. IACS-Rec46, Bulk carriers guidance and information on bulk cargo loading and discharging to reduce the likelihood of over-stressing the hull structure. Guidelines and recommendations, No. 46; 1997. DNV, Strength analysis of hull structure in bulk carriers. Classification Notes No. 31.1; January 2002. Smith, 1975, Compressive strength of welded steel ship grillages, Trans RINA, 117 Faulkner, 1975, A review of effective plating for use in the analysis of stiffened plating in bending and compression, J Ship Res, 19, 10.5957/jsr.1975.19.1.1 Amlashi HKK, Ultimate strength and reliability analysis of ship hulls. Ph.D. thesis, Trondheim: Norwegian University of Science and Technology (NTNU); 2008.