A generalized Timoshenko beam with embedded rotation discontinuity coupled with a 3D macroelement to assess the vulnerability of reinforced concrete frame structures

IF 3.5 3区 工程技术 Q1 MATHEMATICS, APPLIED Finite Elements in Analysis and Design Pub Date : 2024-08-16 DOI:10.1016/j.finel.2024.104234
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Abstract

A generalized finite element beam with an embedded rotation discontinuity coupled with a 3D macroelement is proposed to assess, till complete failure (no stress transfer), the vulnerability of symmetrically reinforced concrete frame structures subjected to static (monotonic, cyclic) or dynamic loading. The beam follows the Timoshenko beam theory and its sectional behavior is described in terms of generalized forces and generalized strains. The beam response up to the peak is described by a macroelement, based on plasticity theory, that adopts a 3D failure criterion expressed in terms of axial force, shear force and bending moment. The Embedded Finite Element Method is then adopted to reproduce bending dominated failure, with a global cohesive model that links the cohesive moment to a rotational jump. The formulation allows for remedy of localization phenomena and significant reduction of the necessary computational time. The performance of the proposed simplified strategy is illustrated by comparison with experimental results.

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带有嵌入式旋转不连续性的广义季莫申科梁与三维宏要素相结合,用于评估钢筋混凝土框架结构的脆弱性
本文提出了一种带有嵌入式旋转不连续性的广义有限元梁,该梁与三维宏元耦合,用于评估对称钢筋混凝土框架结构在静态(单调、循环)或动态荷载作用下的脆弱性,直至完全破坏(无应力传递)。梁遵循季莫申科梁理论,其截面行为用广义力和广义应变来描述。基于塑性理论的宏元素采用三维失效准则,以轴向力、剪切力和弯矩表示,对梁到峰值的响应进行描述。然后采用嵌入式有限元法再现以弯曲为主的破坏,并采用全局内聚模型将内聚力矩与旋转跃变联系起来。这种方法可以消除局部现象,并显著减少必要的计算时间。通过与实验结果的对比,说明了所建议的简化策略的性能。
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来源期刊
CiteScore
4.80
自引率
3.20%
发文量
92
审稿时长
27 days
期刊介绍: The aim of this journal is to provide ideas and information involving the use of the finite element method and its variants, both in scientific inquiry and in professional practice. The scope is intentionally broad, encompassing use of the finite element method in engineering as well as the pure and applied sciences. The emphasis of the journal will be the development and use of numerical procedures to solve practical problems, although contributions relating to the mathematical and theoretical foundations and computer implementation of numerical methods are likewise welcomed. Review articles presenting unbiased and comprehensive reviews of state-of-the-art topics will also be accommodated.
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