船底局部荷重を考慮したコンテナ船の縦曲げ最終強度解析に関する研究:-第3報:縦曲げ最終強度簡易推定法の開発-  [in Japanese] Ultimate Longitudinal Strength Analysis of Container Ships Considering Bottom Local Loads:- Part 3: Development of Simplified Estimation Method of Ultimate Longitudinal Bending Strength -  [in Japanese]

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Abstract

<p>This paper is the third followed by the two companion papers dealing with ultimate longitudinal strength analysis of container ships considering effects of bottom local loads. The major causes of reduction of ultimate hull girder strength due to local loads were discussed based on the finite element analysis of a hold model in the Part 1. The extended Smith's method was developed in Part 2, which is a practical method of progressive collapse analysis of a hull girder under combined longitudinal bending moment and bottom local loads. The objective of this paper is to develop a simplified estimation method of ultimate longitudinal bending strength of a hull girder which can consider the effect of bottom local loads. The proposed method uses an ultimate strength interaction formula on basis of first failure of hull girder. The first failure in compression may be occurred at outer bottom plate near a partial bulk head or inner bottom plate near a water tight bulkhead depending on the deformation of double bottom. The effect of first failure location on hull girder collapse behavior is investigated by the finite element analysis, and it is found that the outer bottom collapse is a direct cause to the hull girder collapse even if the collapse precedes at inner bottom plate. Therefore, the proposed method targets the case of first compressive failure at outer bottom plate. The ultimate longitudinal strength estimated by proposed method is compared with that by finite element method in order to validate its estimation accuracy.</p>

<p>This paper is the third followed by the two companion papers dealing with ultimate longitudinal strength analysis of container ships considering effects of bottom local loads. The major causes of reduction of ultimate hull girder strength due to local loads were discussed based on the finite element analysis of a hold model in the Part 1. The extended Smith's method was developed in Part 2, which is a practical method of progressive collapse analysis of a hull girder under combined longitudinal bending moment and bottom local loads. The objective of this paper is to develop a simplified estimation method of ultimate longitudinal bending strength of a hull girder which can consider the effect of bottom local loads. The proposed method uses an ultimate strength interaction formula on basis of first failure of hull girder. The first failure in compression may be occurred at outer bottom plate near a partial bulk head or inner bottom plate near a water tight bulkhead depending on the deformation of double bottom. The effect of first failure location on hull girder collapse behavior is investigated by the finite element analysis, and it is found that the outer bottom collapse is a direct cause to the hull girder collapse even if the collapse precedes at inner bottom plate. Therefore, the proposed method targets the case of first compressive failure at outer bottom plate. The ultimate longitudinal strength estimated by proposed method is compared with that by finite element method in order to validate its estimation accuracy.</p>

Journal

  • Journal of the Japan Society of Naval Architects and Ocean Engineers

    Journal of the Japan Society of Naval Architects and Ocean Engineers 25(0), 133-142, 2017

    The Japan Society of Naval Architects and Ocean Engineers

Codes

  • NII Article ID (NAID)
    130006068478
  • NII NACSIS-CAT ID (NCID)
    AA12057769
  • Text Lang
    JPN
  • ISSN
    1880-3717
  • NDL Article ID
    028457935
  • NDL Call No.
    Z74-E724
  • Data Source
    NDL  J-STAGE 
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