The aim of this work is to achieve a meshfree implementation for the numerical prediction of 3D flows during mould filling processes in metal casting using a generalized finite difference method. The free surface incompressible flow problem is numerically solved using a semi-implicit Chorin–Uzawa’s projection scheme where the normal vectors needed for the free surface computations are computed with a simple and efficient idea. Further, the boundary conditions incorporation involved in this industrial problem is done in a simple and direct manner. The main characteristics in this meshfree formulation together with details of its computational implementation are given. The numerical results of a benchmark example using this formulation are re...
International audienceA general solution for the 3D mold filling by incompressible viscous fluid is ...
In this work a novel meshless technique for mold filling simulation is presented. The govern-ing equ...
In Casting process filling and solidification is difficult to visualize by experimental methods. The...
This paper proposes the use of a generalized finite difference method for the numerical simulation o...
The simulation of low Froude number mould filling problems on fixed meshes presents significant diff...
In the casting of metals, tundish flow, welding, converters, and other metal processing applications...
Accurate representation of the coupled effects between turbulent fluid flow with a free surface, hea...
This work deals with the numerical simulation of unsteady free surface flows of incompressible visco...
A finite element based, explicit, time-marching scheme is developed for the analysis of three-dimens...
AbstractBased on finite element theory, using FLUENT software and three-dimensional model to simulat...
Modern casting processes allow the precise production of parts with complex shapes. Especially mold ...
The aim of this work was to extend numerical model of mould filling phenomena previously presented...
In injection moulding processes such as Resin Transfer Moulding (RTM) for example, numerical simulat...
Simulation of mould filling in high pressure die casting has been an attractive area of research for...
In this paper we consider several aspects related to the application of the pseudo‐concentration tec...
International audienceA general solution for the 3D mold filling by incompressible viscous fluid is ...
In this work a novel meshless technique for mold filling simulation is presented. The govern-ing equ...
In Casting process filling and solidification is difficult to visualize by experimental methods. The...
This paper proposes the use of a generalized finite difference method for the numerical simulation o...
The simulation of low Froude number mould filling problems on fixed meshes presents significant diff...
In the casting of metals, tundish flow, welding, converters, and other metal processing applications...
Accurate representation of the coupled effects between turbulent fluid flow with a free surface, hea...
This work deals with the numerical simulation of unsteady free surface flows of incompressible visco...
A finite element based, explicit, time-marching scheme is developed for the analysis of three-dimens...
AbstractBased on finite element theory, using FLUENT software and three-dimensional model to simulat...
Modern casting processes allow the precise production of parts with complex shapes. Especially mold ...
The aim of this work was to extend numerical model of mould filling phenomena previously presented...
In injection moulding processes such as Resin Transfer Moulding (RTM) for example, numerical simulat...
Simulation of mould filling in high pressure die casting has been an attractive area of research for...
In this paper we consider several aspects related to the application of the pseudo‐concentration tec...
International audienceA general solution for the 3D mold filling by incompressible viscous fluid is ...
In this work a novel meshless technique for mold filling simulation is presented. The govern-ing equ...
In Casting process filling and solidification is difficult to visualize by experimental methods. The...