A 6-parameter triangular flat shell element for nonlinear analysis

M. Rezaiee-Pajand, A. Masoodi, E. Arabi
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引用次数: 9

Abstract

In this paper, an improved flat triangular shell element is proposed. This element has three nodes, and in each node, six degrees of freedom are considered. Since there are three rotational degrees of freedom at each node, the drilling effect can be incorporated in authors' formulation. A new procedure is also suggested for updating the director vectors about which the rotational degrees of freedom are defined. In order to study large displacements and rotations, Total Lagrangian principles are employed. In addition, updating the rotational degrees of freedom is implemented using enriched updated director vectors, which are formulated based on the finite rotation method. On the other hand, small strains are considered in this formulation. By utilizing MITC method, shear and membrane locking is mitigated from new element. To examine the performance, the element passes three basic tests, including isotropy, and patch test. Moreover, a convergence study is also implemented to show the elemental behavior. Several popular benchmarks are considered to illustrate the accuracy and capability of the suggested element in geometrically nonlinear analyses.    
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用于非线性分析的六参数三角形扁壳单元
本文提出了一种改进的平面三角形壳单元。这个元素有三个节点,在每个节点中,考虑六个自由度。由于每个节点有三个旋转自由度,因此钻削效应可以纳入作者的公式中。本文还提出了一种新的方法来更新定义旋转自由度的指向向量。为了研究大位移和大旋转,采用了全拉格朗日原理。此外,利用基于有限旋转法的丰富的更新方向向量实现了旋转自由度的更新。另一方面,在这个公式中考虑了小的菌株。采用MITC方法,减轻了新单元的剪切和膜锁。为了检查性能,元件要通过三种基本测试,包括各向同性和贴片测试。此外,还进行了收敛性研究,以显示元素行为。考虑了几个流行的基准来说明所建议的元素在几何非线性分析中的准确性和能力。
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CiteScore
1.70
自引率
8.30%
发文量
0
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