The objective of this work is to present a new scheme for temperature-solute coupling in a solidification model, where the temperature and concentration fields simultaneously satisfy the macro-scale transport equations and, in the mushy region, meet the constraints imposed by the thermodynamics and the local scale processes. A step-by-step explanation of the macrosegregation algorithm, implemented in the finite volume unstructured mesh multi-physics modelling code PHYSICA, is initially presented and then the proposed scheme is validated against experimental results obtained by Krane for binary and a ternary alloys
Abstract The simulation of macrosegregation as a conse-quence of solidification of a binary Al-4.5%C...
Macrosegregation originates from the solute partitioning at the liquid-solid interface and the relat...
International audienceIn casting processes, the development of one solid phase from the liquid gives...
Solidification processes are complex in nature, involving multiple phases and several length scales....
A numerical approach for coupling the temperature and concentration fields using a micro/macro dual ...
International audienceAs an approach towards a better modelling of solidification problems, we intro...
Macrosegregation is key defect in industrial casting processes. During solidification, solute redist...
Abstract: The microsegregation process proceeding in the single grain volume is analyzed. The distri...
International audienceDuring the solidification of metal alloys, chemical heterogeneities at the pro...
International audienceThis paper aims to tackle the problem of thermo‐solutal convection and macrose...
International audienceThe transport of solid crystals in the liquid pool during solidification of la...
La macroségrégation est un défaut connu dans les procédés de coulées industrielles. La genèse de ce ...
A mixed model for micro-macroscopic computer simulation of binary alloy solidification is proposed. ...
Control of macrosegregation phenomena and deformation related defects is the main issue in solidific...
During the solidification of metal alloys, several defects may arise which are influenced directly b...
Abstract The simulation of macrosegregation as a conse-quence of solidification of a binary Al-4.5%C...
Macrosegregation originates from the solute partitioning at the liquid-solid interface and the relat...
International audienceIn casting processes, the development of one solid phase from the liquid gives...
Solidification processes are complex in nature, involving multiple phases and several length scales....
A numerical approach for coupling the temperature and concentration fields using a micro/macro dual ...
International audienceAs an approach towards a better modelling of solidification problems, we intro...
Macrosegregation is key defect in industrial casting processes. During solidification, solute redist...
Abstract: The microsegregation process proceeding in the single grain volume is analyzed. The distri...
International audienceDuring the solidification of metal alloys, chemical heterogeneities at the pro...
International audienceThis paper aims to tackle the problem of thermo‐solutal convection and macrose...
International audienceThe transport of solid crystals in the liquid pool during solidification of la...
La macroségrégation est un défaut connu dans les procédés de coulées industrielles. La genèse de ce ...
A mixed model for micro-macroscopic computer simulation of binary alloy solidification is proposed. ...
Control of macrosegregation phenomena and deformation related defects is the main issue in solidific...
During the solidification of metal alloys, several defects may arise which are influenced directly b...
Abstract The simulation of macrosegregation as a conse-quence of solidification of a binary Al-4.5%C...
Macrosegregation originates from the solute partitioning at the liquid-solid interface and the relat...
International audienceIn casting processes, the development of one solid phase from the liquid gives...