A node-based uniform strain virtual element method for compressible and nearly incompressible elasticity

Abstract

Summary We propose a combined nodal integration and virtual element method for compressible and nearly incompressible elasticity, wherein the strain is averaged at the nodes from the strain of surrounding virtual elements. For the strain averaging procedure, a nodal averaging operator is constructed using a generalization to virtual elements of the node-based uniform strain approach for finite elements. We refer to the proposed technique as the node-based uniform strain virtual element method (NVEM). No additional degrees of freedom are introduced in this approach, thus resulting in a displacement-based formulation. A salient feature of the NVEM is that the stresses and strains become nodal variables just like displacements, which can be exploited in nonlinear simulations. Through several benchmark problems in compressible and nearly incompressible elasticity as well as in elastodynamics, we demonstrate that the NVEM is accurate, optimally convergent and devoid of volumetric locking.

Publication
International Journal for Numerical Methods in Engineering
Alejandro Ortiz-Bernardin
Alejandro Ortiz-Bernardin
Vicepresident Chilean Society of Computational Mechanics | Associate Professor Universidad de Chile

Vicepresident Chilean Society of Computational Mechanics | Associate Professor Universidad de Chile

Sergio Salinas-Fernández
Sergio Salinas-Fernández
+Lab Project Manager | Polylla algorithm creator

My research interests include Data science, Computational geometry and GPU computing.

Nancy Hitschfeld Kahler
Nancy Hitschfeld Kahler
+Lab founder | Full Professor Universidad de Chile

Full Professor at the Department of Computer Science, University of Chile. Her main research interests include geometric modeling, geometric meshes, and parallel algorithms (GPU computing), focused in computational science, and engineering applications.