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The Virtual Element Method (VEM) for the elasticity problem is considered in the framework of the HuWashizu variational formulation. In particular, a couple of low-order schemes presented in [1], are studied for quadrilateral meshes. The methods under consideration avoid the need of the stabilization term typical of the VEM, due to the introduction of a suitable projection on higher-order polynomials. The schemes are proved to be stable and optimally convergent in a compressible regime, including the case where highly distorted (even non-convex) meshes are employed

Analysis of a stabilization-free quadrilateral Virtual Element for 2D linear elasticity in the Hu-Washizu formulation

Cremonesi, Massimiliano;Perego, Umberto;
2024-01-01

Abstract

The Virtual Element Method (VEM) for the elasticity problem is considered in the framework of the HuWashizu variational formulation. In particular, a couple of low-order schemes presented in [1], are studied for quadrilateral meshes. The methods under consideration avoid the need of the stabilization term typical of the VEM, due to the introduction of a suitable projection on higher-order polynomials. The schemes are proved to be stable and optimally convergent in a compressible regime, including the case where highly distorted (even non-convex) meshes are employed
2024
Hu-Washizu formulation
Virtual Element Method
Self-stabilized virtual elements
Convergence and stability analysis
LInear elasticity
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1263935
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