Journal ArticleDOI
The energy and solute conservation equations for dendritic solidification
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In this article, the energy equation for solidifying dendritic alloys that includes the effects of heat of mixing in both the dendrite solid and the interdendritic liquid is derived.Abstract:
The energy equation for solidifying dendritic alloys that includes the effects of heat of mixing in both the dendritic solid and the interdendritic liquid is derived. Calculations for Pb-Sn alloys show that this form of the energy equation should be used when the solidification rate is relatively high and/or the thermal gradients in the solidifying alloy are relatively low. Accurate predictions of transport phenomena in solidifying dendritic alloys also depend on the form of the solute conservation equation. Therefore, this conservation equation is derived with particular consideration to an accounting of the diffusion of solute in the dendritic solid. Calculations for Pb-Sn alloy show that the distribution of the volume fraction of interdendritic liquid (gL) in the mushy zone is sensitive to the extent of the diffusion in the solid. Good predictions ofgL are necessary, especially when convection in the mushy zone is calculated.read more
Citations
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A two‐phase model for compaction and damage: 1. General Theory
TL;DR: In this article, a theoretical model for the dynamics of a simple two-phase mixture is presented, where a classical averaging approach combined with symmetry arguments is used to derive the mass, momentum, and energy equations for the mixture.
Journal ArticleDOI
Modelling of macrosegregation: applications and future needs
TL;DR: A review of macrosegregation models, with particular emphasis on their application to selected industrially relevant casting processes, is presented in this paper, where the successes and shortfalls of the models in predicting measured macrose segregation patterns are noted.
Journal ArticleDOI
A Multiphase Solute Diffusion Model for Dendritic Alloy Solidification
TL;DR: In this paper, a multiphase solute diffusion model is proposed to predict microstructure formation in metal castings, where the macroscopic conservation equations are derived for each phase using the volume averaging technique, with constitutive relations developed for interfacial transfer terms.
Journal ArticleDOI
Formation of macrosegregation by multicomponent thermosolutal convection during the solidification of steel
TL;DR: In this article, the formation of macrosegregation by multicomponent thermosolutal convection during the solidification of steel is simulated by simultaneously solving macroscopic mass, momentum, energy, and species conservation equations with full coupling of the temperature and concentrations through thermodynamic equilibrium at the solid/liquid interface.
Journal ArticleDOI
Mathematical Modeling of Transport Phenomena During Alloy Solidification
Christoph Beckermann,R. Viskanta +1 more
TL;DR: In this article, the effects of the solid structure and the interactions between the solid and liquid phases on a microscopic scale were incorporated into a (macroscopic) model of the transport phenomena occurring at the system scale.
References
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Journal ArticleDOI
A fixed grid numerical modelling methodology for convection-diffusion mushy region phase-change problems
Vaughan R Voller,C. Prakash +1 more
TL;DR: In this article, an enthalpy formulation based fixed grid methodology is developed for the numerical solution of convection-diffusion controlled mushy region phase-change problems, where the basic feature of the proposed method lies in the representation of the latent heat of evolution, and of the flow in the solid-liquid mushy zone, by suitably chosen sources.
Book
The physical properties of liquid metals
Roderick I. L. Guthrie,孝道 飯田 +1 more
TL;DR: A comprehensive survey of theories, empirical relations and experimental data on the physical properties of liquid metals can be found in this paper, where the authors give a comprehensive overview of liquid metal properties.
Journal ArticleDOI
A continuum model for momentum, heat and species transport in binary solid-liquid phase change systems—I. Model formulation
W.D. Bennon,Frank P. Incropera +1 more
TL;DR: In this article, a set of continuum conservation equations for binary, solid-liquid phase change systems is presented. But these equations have been cast into forms amenable to clear physical interpretation and solution by conventional numerical procedures.
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