The simulation of incompressible materials suffers from locking when using the standard finite element method (FEM) and coarse linear tetrahedral meshes. Locking increases as the Poisson ratio gets close to 0.5 and often lower Poisson ratio values are used to reduce locking, affecting volume preservation. We propose a novel mixed FEM approach to simulating incompressible solids that alleviates the locking problem for tetrahedra. Our method uses linear shape functions for both displacements and pressure, and adds one scalar per node. It can accommodate nonlinear isotropic materials described by a Young\u27s modulus and any Poisson ratio value by enforcing a volumetric constitutive law. The most realistic such material is Neo-Hookean, and we ...
Standard low-order finite elements, which perform well for problems involving compressible elastic m...
pre-printWe introduce a new algorithm for generating tetrahedral meshes that conform to physical bou...
Volumetric locking (locking in the incompressible limit) for linear elastic isotropic materials is s...
Material point methods suffer from volumetric locking when modelling near incompressible materials d...
International audienceWe introduce an innovative formulation for simple linear tetrahedral elements ...
We present a novel unified finite element framework for performing computationally efficient large s...
The h‐version of the discontinuous Galerkin finite element method (h‐DGFEM) for nearly incompressibl...
This work presents a locking-free smoothed finite element method (S-FEM) for the simulation of soft ...
International audienceThis paper discusses FEM-based simulations of soft bodies in terms of speed an...
The basis of the FIC method is the satisfaction of the standard equations for balance of momentum (...
The material point method is ideally suited to modelling large deformation problems in three dimensi...
The elasticity equations describe how an elastic material moves under a force. An elastic material i...
Many finite elements exhibit the so‐called ‘volumetric locking’ in the analysis of incom...
The DMS-FEM, which enables functional approximations with C(1) or still higher inter-element continu...
We present a robust and efficient form of the smoothed finite element method (S-FEM) to simulate hyp...
Standard low-order finite elements, which perform well for problems involving compressible elastic m...
pre-printWe introduce a new algorithm for generating tetrahedral meshes that conform to physical bou...
Volumetric locking (locking in the incompressible limit) for linear elastic isotropic materials is s...
Material point methods suffer from volumetric locking when modelling near incompressible materials d...
International audienceWe introduce an innovative formulation for simple linear tetrahedral elements ...
We present a novel unified finite element framework for performing computationally efficient large s...
The h‐version of the discontinuous Galerkin finite element method (h‐DGFEM) for nearly incompressibl...
This work presents a locking-free smoothed finite element method (S-FEM) for the simulation of soft ...
International audienceThis paper discusses FEM-based simulations of soft bodies in terms of speed an...
The basis of the FIC method is the satisfaction of the standard equations for balance of momentum (...
The material point method is ideally suited to modelling large deformation problems in three dimensi...
The elasticity equations describe how an elastic material moves under a force. An elastic material i...
Many finite elements exhibit the so‐called ‘volumetric locking’ in the analysis of incom...
The DMS-FEM, which enables functional approximations with C(1) or still higher inter-element continu...
We present a robust and efficient form of the smoothed finite element method (S-FEM) to simulate hyp...
Standard low-order finite elements, which perform well for problems involving compressible elastic m...
pre-printWe introduce a new algorithm for generating tetrahedral meshes that conform to physical bou...
Volumetric locking (locking in the incompressible limit) for linear elastic isotropic materials is s...