应用于大变形问题的有限单元重网格方法中的数据传输

IF 3.7 2区工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Computational Mechanics Pub Date : 2024-05-25 DOI:10.1007/s00466-024-02486-0

Roman Sartorti, Alexander Düster

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引用次数: 0

摘要

本研究是在有限单元法（FCM）与重网格相结合的背景下，对不同的数据传输技术进行比较研究，以解决发生大变形的超弹性问题。FCM 是一种沉浸边界法，使用笛卡尔网格进行离散化，以避免生成边界符合网格。为了克服大变形状态下网格严重扭曲的问题，我们采用了重网格化程序。在重网格化过程中，包含变形历史的数据必须在网格之间传输。在本研究中，我们考虑并比较了不同的方法：不带多项式扩展的径向基函数和带多项式扩展的径向基函数、反距离加权以及应用 FCM 中使用的形状函数进行试验和测试函数的 \(\textit{L}_\text {2}\)-投影。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Data transfer within a finite cell remeshing approach applied to large deformation problems

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Data transfer within a finite cell remeshing approach applied to large deformation problems

The present work is a comparative study of different data transfer techniques in the context of the finite cell method (FCM) in combination with remeshing for hyperelastic problems undergoing large deformations. The FCM is an immersed-boundary method that uses Cartesian grids for the discretization so as to avoid the generation of boundary conforming meshes. To overcome problems with heavily distorted meshes at large deformation states, we apply a remeshing procedure. During the remeshing, the data containing the deformation history has to be transferred between the meshes. In the present study, different methods are considered and compared: radial basis functions without and with polynomial extension, inverse distance weighting, and \(\textit{L}_\text {2}\)-projection applying the shape functions used in the FCM for the trial and test functions.

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来源期刊

Computational Mechanics 物理-力学

CiteScore

7.80

自引率

12.20%

发文量

122

审稿时长

3.4 months

期刊介绍： The journal reports original research of scholarly value in computational engineering and sciences. It focuses on areas that involve and enrich the application of mechanics, mathematics and numerical methods. It covers new methods and computationally-challenging technologies. Areas covered include method development in solid, fluid mechanics and materials simulations with application to biomechanics and mechanics in medicine, multiphysics, fracture mechanics, multiscale mechanics, particle and meshfree methods. Additionally, manuscripts including simulation and method development of synthesis of material systems are encouraged. Manuscripts reporting results obtained with established methods, unless they involve challenging computations, and manuscripts that report computations using commercial software packages are not encouraged.