AbstractA three-field finite element scheme designed for solving systems of partial differential equations governing time-dependent viscoelastic flows is studied. Once a classical backward Euler time discretization is performed, the resulting three-field system of equations allows for a stable approximation of velocity, pressure and extra stress tensor, by means of continuous piecewise linear finite elements, in both two- and three- dimensional space. This is proved to hold for the linearized form of the system. An advantage of the new formulation is the fact that it provides an algorithm for the explicit iterative resolution of system nonlinearities. Convergence in an appropriate sense applying to these three flow fields is demonstrated
Complex fluid flow simulations are important in several industrial and biological applications, e.g....
AbstractTwo- and three-field methods are studied for solving the Stokes system in the axisymmetric c...
Abstract. We evaluate the stabilized three-field stress-velocity-pressure Galerkin/Least-Squares fin...
AbstractA three-field finite element scheme designed for solving time-dependent systems of partial d...
AbstractA three-field finite element scheme for the explicit iterative solution of the stationary in...
The original publication is available at www.esaimm2an.org.In this paper we present the numerical an...
In this paper, a three-field finite element stabilized formulation for the incompressible viscoelast...
A time-dependent model corresponding to an Oldroyd-B viscoelastic fluid is considered, the convectiv...
The Finite Element Method (FEM) is a powerful numerical tool, that permits the resolution of problem...
To avoid any numerical locking in the finite element approximation of viscoelastic flow problems, we...
An optimal {\em a priori} error estimate ${\cal O}\left(h^{k}+\Delta t\right)$, result is presented ...
Abstract The stability and convergence of a linearly extrapolated second order backward difference (...
This work concerns with numerical simulations of creeping and inertial flows of viscoelastic fluids....
The original publication is available at http://www.springer.comInternational audienceTA Mixed Finit...
An implementation of the EVSS-G method in a finite element framework is presented for modeling three...
Complex fluid flow simulations are important in several industrial and biological applications, e.g....
AbstractTwo- and three-field methods are studied for solving the Stokes system in the axisymmetric c...
Abstract. We evaluate the stabilized three-field stress-velocity-pressure Galerkin/Least-Squares fin...
AbstractA three-field finite element scheme designed for solving time-dependent systems of partial d...
AbstractA three-field finite element scheme for the explicit iterative solution of the stationary in...
The original publication is available at www.esaimm2an.org.In this paper we present the numerical an...
In this paper, a three-field finite element stabilized formulation for the incompressible viscoelast...
A time-dependent model corresponding to an Oldroyd-B viscoelastic fluid is considered, the convectiv...
The Finite Element Method (FEM) is a powerful numerical tool, that permits the resolution of problem...
To avoid any numerical locking in the finite element approximation of viscoelastic flow problems, we...
An optimal {\em a priori} error estimate ${\cal O}\left(h^{k}+\Delta t\right)$, result is presented ...
Abstract The stability and convergence of a linearly extrapolated second order backward difference (...
This work concerns with numerical simulations of creeping and inertial flows of viscoelastic fluids....
The original publication is available at http://www.springer.comInternational audienceTA Mixed Finit...
An implementation of the EVSS-G method in a finite element framework is presented for modeling three...
Complex fluid flow simulations are important in several industrial and biological applications, e.g....
AbstractTwo- and three-field methods are studied for solving the Stokes system in the axisymmetric c...
Abstract. We evaluate the stabilized three-field stress-velocity-pressure Galerkin/Least-Squares fin...