A Cell-based MITC3+ Flat Shell Element for Frequency Analyses of Plates and Shells Using Substructuring Methods

T. Chau-Dinh, H. Vo-Ngoc, Jin-Gyun Kim
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Abstract

A cell-based three-node triangular flat shell element with a bubble node is introduced to analyze frequencies of plates and shells. By smoothing the in-plane strains on sub-triangular domains created by connecting the bubble node to element nodes and applying the divergence theorem to derivatives in the gradient matrices, the integration of corresponding stiffness matrices are transformed from surface to line integrals. To remove the shear locking, the MITC3+ technique for three-node triangular degenerated shell elements with a bubble node is employed. The Craig-Bampton (CB) and enhanced Craig-Bampton (ECB) methods, which are well-known reduced-order modeling techniques based on substructuring strategy, are used for efficiently solving frequency analyses. Numerical results demonstrate the reliability and superiority of the present element, called CS-MITC3+, when combined with the substructuring methods to compute frequencies of plate and shell structures.
基于单元的MITC3+平壳单元用于板壳频率分析
提出了一种基于单元的带气泡节点的三节点三角形平壳单元,用于板壳频率分析。通过将气泡节点与单元节点连接形成的子三角形域上的面内应变进行平滑处理,并将散度定理应用于梯度矩阵的导数,将相应刚度矩阵的积分由曲面积分转化为线积分。为了消除剪切锁紧,采用MITC3+技术对带有气泡节点的三节点三角形简并壳单元进行处理。Craig-Bampton (CB)和增强Craig-Bampton (ECB)方法是众所周知的基于子结构策略的降阶建模技术,用于有效地求解频率分析。数值结果表明,CS-MITC3+单元结合子结构法计算板壳结构频率的可靠性和优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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