Spline- and hp-basis functions of higher differentiability in the finite cell method

Q1 Mathematics

GAMM Mitteilungen Pub Date : 2019-08-22 DOI:10.1002/gamm.202000004

Stefan Kollmannsberger, Davide D'Angella, Ernst Rank, Wadhah Garhuom, Simeon Hubrich, Alexander Düster, Paolo Di Stolfo, Andreas Schröder

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引用次数: 8

Abstract

In this paper, the use of hp-basis functions with higher differentiability properties is discussed in the context of the finite cell method and numerical simulations on complex geometries. For this purpose, C^k hp-basis functions based on classical B-splines and a new approach for the construction of C¹ hp-basis functions with minimal local support are introduced. Both approaches allow for hanging nodes, whereas the new C¹ approach also includes varying polynomial degrees. The properties of the hp-basis functions are studied in several numerical experiments, in which a linear elastic problem with some singularities is discretized with adaptive refinements. Furthermore, the application of the C^k hp-basis functions based on B-splines is investigated in the context of nonlinear material models, namely hyperelasticity and elastoplasicity with finite strains.

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有限单元法中具有较高可微性的样条基和hp基函数

本文在有限单元法和复杂几何的数值模拟的背景下，讨论了具有高可微性的hp基函数的应用。为此，提出了基于经典b样条的Ck hp-基函数和一种构造具有最小局部支持的C1 hp-基函数的新方法。两种方法都允许挂节点，而新的C1方法还包括不同的多项式度。本文通过数值实验研究了一类具有奇异性的线性弹性问题的性质，并对其进行了自适应离散化。此外，研究了基于b样条的Ck - hp基函数在非线性材料模型(即超弹性和有限应变弹塑性)中的应用。

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

GAMM Mitteilungen Mathematics-Applied Mathematics

CiteScore

8.80

自引率

0.00%

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