A mixed hexahedral solid-shell finite element with self-equilibrated isostatic assumed stresses for geometrically nonlinear problems

IF 2.7 3区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY International Journal for Numerical Methods in Engineering Pub Date : 2024-10-10 DOI:10.1002/nme.7596
Francesco S. Liguori, Giovanni Zucco, Antonio Madeo
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Abstract

Mixed Finite Elements (FEs) with assumed stresses and displacements provide many advantages in analysing shell structures. They ensure good results for coarse meshes and provide an accurate representation of the stress field. The shell FEs within the family designated by the acronym Mixed Isostatic Self-equilibrated Stresses (MISS) have demonstrated high performance in linear and nonlinear problems thanks to a self-equilibrated stress assumption. This article extends the MISS family by introducing an eight nodes solid-shell FE for the analysis of geometrically nonlinear structures. The element, named MISS-4S, features 24 displacement variables and an isostatic stress representation ruled by 18 parameters. The displacement field is described only by translations, eliminating the need for complex finite rotation treatments in large displacements problems. A total Lagrangian formulation is adopted with the Green–Lagrange strain tensor and the second Piola–Kirchhoff stress tensor. The numerical results concerning popular shell obstacle courses prove the accuracy and robustness of the proposed formulation when using regular or distorted meshes and demonstrate the absence of any locking phenomena. Finally, convergences for pointwise and energy quantities show the superior performance of MISS-4S compared to other elements in the literature, highlighting that an isostatic and self-equilibrated stress representation, already used in shell models, also gives advantages for solid-shell FEs.

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针对几何非线性问题的混合六面体固壳有限元与自平衡等静压假定应力
具有假定应力和位移的混合有限元(FE)在分析壳体结构时具有许多优势。它们可确保粗网格的良好结果,并提供应力场的精确表示。由于采用了自平衡应力假设,混合等静压自平衡应力(MISS)系列中的壳体有限元在线性和非线性问题中都表现出了很高的性能。本文通过引入一种用于分析几何非线性结构的八节点固壳有限元,对 MISS 系列进行了扩展。该元素被命名为 MISS-4S,具有 24 个位移变量和由 18 个参数控制的等静压应力表示。位移场仅通过平移来描述,因此在大位移问题中无需进行复杂的有限旋转处理。采用了格林-拉格朗日应变张量和第二皮奥拉-基尔霍夫应力张量的总拉格朗日公式。有关流行的壳体障碍课程的数值结果证明了所提出的公式在使用规则或扭曲网格时的准确性和稳健性,并证明不存在任何锁定现象。最后,与文献中的其他元素相比,MISS-4S 在点和能量量方面的收敛性显示了其卓越的性能,突出了等静压和自平衡应力表示法(已在壳模型中使用)在固壳 FE 中也具有优势。
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来源期刊
CiteScore
5.70
自引率
6.90%
发文量
276
审稿时长
5.3 months
期刊介绍: The International Journal for Numerical Methods in Engineering publishes original papers describing significant, novel developments in numerical methods that are applicable to engineering problems. The Journal is known for welcoming contributions in a wide range of areas in computational engineering, including computational issues in model reduction, uncertainty quantification, verification and validation, inverse analysis and stochastic methods, optimisation, element technology, solution techniques and parallel computing, damage and fracture, mechanics at micro and nano-scales, low-speed fluid dynamics, fluid-structure interaction, electromagnetics, coupled diffusion phenomena, and error estimation and mesh generation. It is emphasized that this is by no means an exhaustive list, and particularly papers on multi-scale, multi-physics or multi-disciplinary problems, and on new, emerging topics are welcome.
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