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Chinese Journal of Ship Research, Volume. 16, Issue 6, 176(2021)

Sea states effects on fatigue damage of large ship prone to springing effect

Kang HUA, Wenbin ZHAO, and Dingfan WU
Author Affiliations
  • Shanghai Merchant Ship Design and Research Institute, Shanghai 201203, China
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    References(11)

    [1] [1] Lloyd''s Register. Structural design assessment: Guidance notes on the assessment of global design loads of large container ships other ships prone to whipping springing[S]. London: Lloyd’s Register, 2014.

    [2] [2] CLEARY W A, ROBERTSON J B, YAGLER A. The results significance of the strength studies on the Great Lake bulk e carrier Edvard L. Ryerson[C]SNAME Symposium on Hull stresses in Bulk Carriers. Ottawa: [s. n.], 1971: 412–426.

    [3] LEWIS E. Ship model tests to determine bending moments in waves[J]. The Soc. of Naval Arch. and Marine, 62(1954).

    [4] [4] DUDSON E, RAMBECH H, WU M. Determination of wave bending loads on a 40 knot, long slender open topped containership through model tests hydrodynamic calculations with particular reference to the effects of hull flexibility on fatigue life[C]The 6th International Conference on FAST Sea Transptation. London: The Royal Institution of Naval Architects, 2001: 177–190.

    [5] [5] STHAUG G, VIDICPERUNOVIC J, RÜDINGER F, et al. Springingwhipping response of a large ocean going vessel – a comparison between numerical simulations fullscale measurements[C]Proceedings of Hydroelasticity in Marine Technology. Oxfd: University of Oxfd, 2003: 117–131.

    [6] [6] MOE E, HOLTSMARK G, STHAUG G. Full scale measurements of the wave induced hull girder vibrations of an e carrier trading in the Nth Atlantic[C]RINA International Conference, Design Operation of Bulk Carriers. London: [s. n.], 2005: 57–85.

    [8] [8] Nwegian Marine Technology Research Institute (Marintek). Evaluation of fatigue damage rates based on model tests f the 400, 000DWT e carrier[R]. Nge: Marintek, 2010.

    [9] JENSEN J J, DOGLIANI M. Wave-induced ship full vibrations in stochastic seaways[J]. Marine Structures, 9, 353-387(1996).

    [10] [10] STHAUG G. Experimental investigation of wave induced vibrations their effect on the fatigue loading of ships[D]. Nway: Nwegian University of Science Technology, 2007.

    [11] [11] Shanghai Merchant Ship Design Research Institute (SDARI). Evaluation of fatigue damage rates based on model tests f the 325, 000DWT e carrier[R]. Shanghai: SDARI, 2017.

    [12] [12] DNV GL. Fatigue assessment of ship structures: DNV GLCG0129[S]. [S. l]: DNV GL, 2014.

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    Kang HUA, Wenbin ZHAO, Dingfan WU. Sea states effects on fatigue damage of large ship prone to springing effect[J]. Chinese Journal of Ship Research, 2021, 16(6): 176

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    Paper Information

    Category: Ship Structure and Fittings

    Received: Oct. 5, 2020

    Accepted: --

    Published Online: Mar. 28, 2025

    The Author Email:

    DOI:10.19693/j.issn.1673-3185.02134

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology