Numerical simulation of mold filling in low pressure die casting is considered in this study. The physical model includes modeling of free surface flow, heat transfer with phase change, surface tension, natural convection together with effect of trapped air in the mold. The governing equations are discretized by control volume finite difference method. The pressure field is computed by two-step projection method and the free surface is tracked by PLIC-VOF method. Water analog model is used for the validation purpose. Good agreement between numerical and experimental results is observed which supports the feasibility of the presented method
Simulation of mould filling in high pressure die casting has been an attractive area of research for...
AbstractBased on finite element theory, using FLUENT software and three-dimensional model to simulat...
AbstractA numerical model of 2. 5D non-isothermal resin transfer molding simulation is developed for...
A 3D mathematical model was proposed to simulate the mold filling process in high-pressure die casti...
Modern casting processes allow the precise production of parts with complex shapes. Especially mold ...
The goal of this research was to predict the part deformation and residual stresses after ejection f...
Mould filling simulation in high pressure die casting has been an attractive area of research for ma...
The filling mold process of semi-solid alloy blank influences severely the forming and properties of...
Low pressure die-casting is a "near net shape" foundry process that offers a good compromise between...
A gas-liquid two-phase model for the simulation of a power-law fluid mold filling process with the c...
Experiments of filling the model moulds cavity of various inner shapes inserted in rectangular cavit...
[[abstract]]A numerical algorithm is developed to simulate the filling state of injection-compressio...
Numerical simulation is widely used and accepted in manufacturing as a way to improve the quality of...
Experiments of filling the model moulds cavity of various inner shapes inserted in rectangular cavit...
This paper proposes the use of a generalized finite difference method for the numerical simulation o...
Simulation of mould filling in high pressure die casting has been an attractive area of research for...
AbstractBased on finite element theory, using FLUENT software and three-dimensional model to simulat...
AbstractA numerical model of 2. 5D non-isothermal resin transfer molding simulation is developed for...
A 3D mathematical model was proposed to simulate the mold filling process in high-pressure die casti...
Modern casting processes allow the precise production of parts with complex shapes. Especially mold ...
The goal of this research was to predict the part deformation and residual stresses after ejection f...
Mould filling simulation in high pressure die casting has been an attractive area of research for ma...
The filling mold process of semi-solid alloy blank influences severely the forming and properties of...
Low pressure die-casting is a "near net shape" foundry process that offers a good compromise between...
A gas-liquid two-phase model for the simulation of a power-law fluid mold filling process with the c...
Experiments of filling the model moulds cavity of various inner shapes inserted in rectangular cavit...
[[abstract]]A numerical algorithm is developed to simulate the filling state of injection-compressio...
Numerical simulation is widely used and accepted in manufacturing as a way to improve the quality of...
Experiments of filling the model moulds cavity of various inner shapes inserted in rectangular cavit...
This paper proposes the use of a generalized finite difference method for the numerical simulation o...
Simulation of mould filling in high pressure die casting has been an attractive area of research for...
AbstractBased on finite element theory, using FLUENT software and three-dimensional model to simulat...
AbstractA numerical model of 2. 5D non-isothermal resin transfer molding simulation is developed for...