International audienceA general solution for the 3D mold filling by incompressible viscous fluid is described. It is based on the combination of an extended flow solver and the solution of a transport equation governing the flow front position. The flow solver uses tetrahedral elements, a first order stable mixed velocity pressure formulation entering in the family of the MINI-element, and a global iterative solution. The characteristic function of the fluid domain is shown to follow a conservative law and the moving fluid description is transformed into a transport equation in the whole domain to be filled. An explicit discontinuous Taylor-Galerkin scheme is introduced to solve this fluid motion equation. This scheme is shown to be consist...
A three-dimensional extended finite element method is presented to simulate Stokes flow in complex g...
Prediction of flow and stress patterns in viscoelastic fluids flowing through channels of complex sh...
For the first time, the viscoelastic flow front instability is studied in the full non-linear regime...
International audienceIn continuity with the work of the authors, a Taylor discontinuous Galerkin me...
A finite element based, explicit, time-marching scheme is developed for the analysis of three-dimens...
Modern casting processes allow the precise production of parts with complex shapes. Especially mold ...
Mould filling processes, in which a material flow front advances through a mould, are typical exampl...
A finite element simulation, based on Barone and Caulk's model, is developed to study the compressio...
In this paper we consider several aspects related to the application of the pseudo‐concentration tec...
This work deals with the numerical simulation of unsteady free surface flows of incompressible visco...
Mould filling processes, in which a material flow front advances through a mould, are typical exampl...
A numerical method is developed for solving the 3D, unsteady, incompressible flows with immersed mov...
A numerical method is developed for solving the 3D, unsteady, incompressible flows with immersed mov...
The filling process of injection molding in various planar gaps and center-gated disks are analyzed ...
Two different techniques to analyze non-Newtonian viscous flow in complex geometries with internal m...
A three-dimensional extended finite element method is presented to simulate Stokes flow in complex g...
Prediction of flow and stress patterns in viscoelastic fluids flowing through channels of complex sh...
For the first time, the viscoelastic flow front instability is studied in the full non-linear regime...
International audienceIn continuity with the work of the authors, a Taylor discontinuous Galerkin me...
A finite element based, explicit, time-marching scheme is developed for the analysis of three-dimens...
Modern casting processes allow the precise production of parts with complex shapes. Especially mold ...
Mould filling processes, in which a material flow front advances through a mould, are typical exampl...
A finite element simulation, based on Barone and Caulk's model, is developed to study the compressio...
In this paper we consider several aspects related to the application of the pseudo‐concentration tec...
This work deals with the numerical simulation of unsteady free surface flows of incompressible visco...
Mould filling processes, in which a material flow front advances through a mould, are typical exampl...
A numerical method is developed for solving the 3D, unsteady, incompressible flows with immersed mov...
A numerical method is developed for solving the 3D, unsteady, incompressible flows with immersed mov...
The filling process of injection molding in various planar gaps and center-gated disks are analyzed ...
Two different techniques to analyze non-Newtonian viscous flow in complex geometries with internal m...
A three-dimensional extended finite element method is presented to simulate Stokes flow in complex g...
Prediction of flow and stress patterns in viscoelastic fluids flowing through channels of complex sh...
For the first time, the viscoelastic flow front instability is studied in the full non-linear regime...