Finite element simulation of slender thin-walled box columns by implementing real initial conditions

Luka Pavlovcic; Bernadette Froschmeier; Ulrike Kuhlmann; Darko Beg

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Finite element simulation of slender thin-walled box columns by implementing real initial conditions

机译：通过实现实际初始条件对细长薄壁箱形柱进行有限元模拟

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摘要

This paper deals with the numerical simulation of tests on slender thin-walled box columns, susceptible to combined instability: to global Euler buckling and to local buckling of steel plates. Eight full-scale tests were carried out with different global slenderness of welded and cold-formed columns subjected to centric and eccentric compression. Initial column geometry and residual stresses were measured and carefully implemented in numerical models. The results of FEA simulations show good agreement with the test results. On verified numerical model the influence of different initial imperfections was studied and various equivalent geometric imperfections were tested for the considered column configurations.

机译：本文涉及细长薄壁箱形柱试验的数值模拟，该试验容易受到组合不稳定性的影响：整体欧拉屈曲和钢板局部屈曲。进行了八次全尺寸测试，对承受中心和偏心压缩的焊接和冷弯立柱分别采用不同的整体细长度。测量了初始柱的几何形状和残余应力，并在数值模型中进行了仔细地实现。 FEA仿真结果与测试结果吻合良好。在验证的数值模型上，研究了不同初始缺陷的影响，并针对考虑的色谱柱配置测试了各种等效的几何缺陷。

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来源
《Advances in Engineering Software》 |2012年第1期|p.63-74|共12页
作者
Luka Pavlovcic; Bernadette Froschmeier; Ulrike Kuhlmann; Darko Beg;
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作者单位

Faculty of Civil and Geodetic Engineering, University of Ljubljana, Slovenia;

Institute for Structural Design, University of Stuttgart, Germany;

Institute for Structural Design, University of Stuttgart, Germany;

Faculty of Civil and Geodetic Engineering, University of Ljubljana, Slovenia;

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正文语种 eng
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关键词
slender box columns; coupled instability; buckling; initial imperfections; residual stresses; FEA simulations;

机译：细长的箱形柱;耦合不稳定屈曲最初的缺陷;残余应力;FEA模拟;

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3. Implementation of the stress jump condition in a control-volume finite-element method for the simulation of laminar coupled flows in adjacent open and porous domains [J] . Costa VAF, Oliveira LA, Baliga BR Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2008,第5a6期

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4. Finite Element Simulation of Slender Thin-Walled Box Columns by Implementing Real Initial Conditions [C] . L. Pavlovcic, rnU. Kuhlmann, rnB. Froschmeier, Proceedings of the Twelfth international conference on civil, structural and environmental engineering computing . 2009

机译：实实在在条件的细长薄壁箱形柱有限元模拟
5. Thin-walled box beam finite elements for static analysis of curved haunched and skew multicell box girder bridges. [D] . Li, Hangang. 1992

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6. Source codes and simulation data for the finite element implementation of the conventional and localizing gradient damage methods in ABAQUS [O] . Subrato Sarkar, I.V. Singh, B.K. Mishra, 2019

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7. Spatial Finite Element Analysis for Dynamic Response of Curved Thin-Walled Box Girder Bridges [O] . Yinhui Wang, Yidong Xu, Zheng Luo, 2016

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Finite element simulation of slender thin-walled box columns by implementing real initial conditions

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