Publication Date:
2017
abstract:
We study the application of the Isogeometric Finite Cell Method (IGA-FCM) to mixed formulations in the context of the Stokes problem. We investigate the performance of the IGA-FCM when utilizing some isogeometric mixed finite elements, namely: Taylor–Hood, Sub-grid, Raviart–Thomas, and Nédélec elements. These element families have been demonstrated to perform well in the case of conforming meshes, but their applicability in the cut-cell context is still unclear. Dirichlet boundary conditions are imposed by Nitsche's method. Numerical test problems are performed, with a detailed study of the discrete inf–sup stability constants and of the convergence behavior under uniform mesh refinement.
Iris type:
1.1 Articolo in rivista
Keywords:
Fictitious domain; Finite cell method; Immersed boundary method; Isogeometric analysis; Mixed formulations; Stokes; Computational Mechanics; Mechanics of Materials; Mechanical Engineering; Physics and Astronomy (all); Computer Science Applications1707 Computer Vision and Pattern Recognition
List of contributors:
Hoang, Tuong; Verhoosel, Clemens V.; Auricchio, Ferdinando; van Brummelen, E. Harald; Reali, Alessandro
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