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船体结构总纵极限强度的简化逐步破坏分析方法 被引量:10

The Simplified Progressive Collapse Method for Analyzing Ship Structure Ultimate Longitudinal Strength
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摘要 本文基于Smith方法,应用梁-柱理论、理想弹塑性假设、平截面假设和塑性铰理论建立了加筋板单元的应力-应变关系曲线,导出了船体结构总纵极限强度的简化逐步破坏分析方法并编制成FORTRAN计算程序。应用作者导出的简化逐步破坏分析方法分析计算了Reckling23号模型总纵极限强度。计算结果表明,本文导出的简化逐步破坏分析方法和计算程序正确可靠,可供船体结构设计和使用。本文还对船体结构总纵极限强度的影响因素进行了分析,其中包括加筋板单元的载荷-缩短行为、横向压力、材料屈服强度和腐蚀等。 Based on Smith method, the Simplified Progressive Collapse Method for analyzing ship structure ultimate longitudinal strength is presented by applying beam-column theory, elasto-plastic assumption, plane section assumption and plastic hinge theory. The whole procedure has been coded into a FORTRAN program called SPCM. The bending moment-curvature curve is calculated by integrating the moment of each stiffened plate element to the instant elastic neutral axis of the whole section. The ultimate longitudinal strength is the peak value where the slope of moment-curvature curve equals zero or changes to minus. Its accuracy is decided by the accordance of stress-strain relationship of stiffened plate with real stress condition. The ultimate strength of stiffened plate is calculated from the compressed failures of the flange and the plate separately and the combined failures of both of them. It is shown through the comparison with the results of different methods that the compressed stress-strain relationship based on the ultimate strength of stiffened plate is quite accurate and reliable. This paper computes also the ultimate longitudinal strength of Reckling's No.23 model by using the Simplified Progressive Collapse Method. The results are quite satisfactory from the comparison of the results of this paper with the results of model test and other methods. It indicates that the computing method and program of this paper are correct and reliable and can be referenced and adopted during ship designing. At last, this paper investigates some factors which may affect the ship structure ultimate longitudinal strength heavily, including the load-shedding behavior of the stiffened plate, lateral pressure, material yield stress and steel plate thickness reduction due to corrosion. The investigation results indicate that all these factors should be paid more attentions in ship designing, operation and maintenance.
作者 何福志 马建军 万正权
机构地区 武汉第二船舶设计研究所 中国船舶科学研究中心
出处 《中国造船》 EI CSCD 北大核心 2005年第2期17-27,共11页 Shipbuilding of China
关键词 总纵极限强度 破坏分析 船体结构 应力-应变关系曲线 FORTRAN 计算程序 SMITH 理想弹塑性 梁柱理论 理论建立 分析计算 计算结果 结构设计 横向压力 屈服强度 板单元 塑性铰 应用 假设 加筋 ship engineering hull structure ultimate strength stress-strain relationship yield stress corrosion
分类号 U661.43 [交通运输工程—船舶及航道工程] TU375.3 [建筑科学—结构工程]
  • 相关文献

参考文献12

  • 1Chen Y K, Kutt L M, Piaszczyk C M and Bieniek M P. Ultimate strength of ship structures[J]. SNAME Trans., 1983, 91: 149~168.
  • 2Caldwell J B. Ultimate longitudinal strength[J]. Trans. RINA, 1965, 107: 417~430.
  • 3Nishihara S. Analysis of ultimate strength of stiffened rectangular plate (4th Report) - On the ultimate bending moment of ship hull girder[J]. J. Soc. Naval Arch. of Japan, 1983, 154: 367~375(in Japanese).
  • 4Paik J K and Mansour A. A simple formulation for predicting the ultimate strength of ships[J]. J. Marine Science and Technology, 1995, 1: 52~62.
  • 5Smith C S. Influence of local compressive failure on ultimate longitudinal strength of a ship's hull[J]. PRADS, 1977, 77: 73~79.
  • 6Kutt L M, Piaszczyk C M and Chen Y K. Evaluation of longitudinal ultimate strength of various ship hull configurations[J]. SNAME Trans. 1985, 93: 33~55.
  • 7Ueda Y, Rashed S M H and Paik J K. Plate and stiffened plate units of the idealized structural unit method-under in-plane loading[J]. J. Soc. Naval Arch of Japan, 1984, 156: 366~376(in Japanese).
  • 8Smith C S. Structural redundancy and damage tolerance in relation to ultimate ship hull strength[A]. Proc. Int. Symp. on The Role of Design, Inspection and Redundancy in Marine Structural Reliability[C]. Williamsburg, U.S.A: 1983.
  • 9何福志.[D].无锡:中国船舶科学研究中心,2001.
  • 10何福志,万正权.船体结构总纵极限强度的简化逐步破坏分析[J].船舶力学,2001,5(5):21-35. 被引量:17

二级参考文献17

  • 1CHEN Y K,KUTT L M,PIASZCZYK C M,BIENIEK M P.Ultimate strength of ship structures[J].SNAME Trans.,1983,91:149-168.
  • 2CALDWELL J B.Ultimate longitudinal strength[J].Trans RINA,1965,107:417-430.
  • 3NISHIHARA S.Analysis of ultimate strength of stiffened rectangular plate(4th Report)-On the ultimate bending moment of ship hull girder[J].J.Soc.Naval Arch.of Japan.1983,154:367-375(in Japanese).
  • 4PAIK J K,MANSOUR A E.A simple formulation for predicting the ultimate strength of ships[J].J.Marine Science and Technology 1995,1:52-62.
  • 5SMITH C S.Influence of local compressive failure on ultimate longitudinal strength of a ship's hull[A].PRADS 77[C],1977.73-79.
  • 6KUTT L M,PIASZCZYK C M.CHEN Y K.Evaluation of longitudinal ultimate strength of various ship hull configurations[J].SNAME Trans.,1985,93:33-55.
  • 7UEDA Y,RASHED S M H,PAIK J K.Plate and stiffened plate units of the idealized structural unit method-Under in-plane loading[J].J.Soc.Naval Arch of Japan,1984,156:366-376(in Japanese).
  • 8MANSOUR A E,YANG J M,THAYAMBALLI A.An experimental investigation of ship hull ultimate strength[J].SNAME Trans,1990,98:411-439.
  • 9DOWLING P J,MOOLANI F M,FRIEZ P A.The effect of shear lag on the ultimate strength of box girder[A].Proc.Int.Cong.On Steel Plated Structures[C],London,1976.108-147.
  • 10Design example-hull girder collapse[A].In Proc.12th Int.Ship and Offshore Structures Congress[C],1,St.Johns,Canada,September 1994.351-362.

共引文献16

同被引文献43

引证文献10

二级引证文献34

中国造船
2005年 第2期

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