Numerical solutions of a gradient-elastic Kirchhoff plate model on convex and concave geometries using isogeometric analysis

IF 1.5 4区 工程技术 Q3 MECHANICS
Y. Leng, Tianyi Hu, Sthavishtha R. Bhopalam, Héctor Mauricio Serna-Gómez
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引用次数: 2

Abstract

In this work, we study numerical solutions of a gradient-elastic Kirchhoff plate model on convex and concave geometries. For a convex plate, we first show the well-posedness of the model. Then, we split the sixth-order partial differential equation (PDE) into a system of three second-order PDEs. The solution of the resulting system coincides with that of the original PDE. This is verified with convergence studies performed by solving the sixth-order PDE directly (direct method) using isogeometric analysis (IGA) and the system of second-order PDEs (split method) using both IGA and C0 finite elements. Next, we study a concave pie-shaped plate, which has one re-entrant point. The well-posedness of the model on the concave domain is proved. Numerical solutions obtained using the split method differ significantly from that of the direct method. The split method may even lead to nonphysical solutions. We conclude that for gradient-elastic Kirchhoff plates with concave corners, it is necessary to use the direct method with IGA.
用等几何分析方法求解凸、凹几何梯度弹性Kirchhoff板模型
在这项工作中,我们研究了梯度弹性Kirchhoff板模型在凸和凹几何上的数值解。对于凸板,我们首先证明了模型的适位性。然后,我们将六阶偏微分方程分解为三个二阶偏微分方程系统。所得系统的解与原PDE的解一致。通过使用等几何分析(IGA)直接求解六阶偏微分方程(直接法)和使用IGA和C0有限元的二阶偏微分方程(分裂法)系统进行的收敛性研究验证了这一点。其次,我们研究了一个凹饼形板,它有一个重入点。证明了该模型在凹域上的适定性。用分裂法得到的数值解与直接法得到的数值解有很大的不同。分裂方法甚至可能导致非物理的解决方案。结果表明,对于具有凹角的梯度弹性Kirchhoff板,有必要采用IGA直接法。
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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来源期刊
Journal of Mechanics
Journal of Mechanics 物理-力学
CiteScore
3.20
自引率
11.80%
发文量
20
审稿时长
6 months
期刊介绍: The objective of the Journal of Mechanics is to provide an international forum to foster exchange of ideas among mechanics communities in different parts of world. The Journal of Mechanics publishes original research in all fields of theoretical and applied mechanics. The Journal especially welcomes papers that are related to recent technological advances. The contributions, which may be analytical, experimental or numerical, should be of significance to the progress of mechanics. Papers which are merely illustrations of established principles and procedures will generally not be accepted. Reports that are of technical interest are published as short articles. Review articles are published only by invitation.
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