Best practice for measuring grid convergence in numerical models of alloy solidification

Abstract: Purpose -When a multi component alloy solidifies the redistribution of solute components leads to the formation of macrosegregation patterns. Blending ideas from a number of recent publications the purpose of this paper is to provide a "best practice" on how grid convergence of a given macrosegregation simulation can be measured and determined. Design/methodology/approach -The best practice is arrived at by considering a benchmark problem consisting of a 2D-casting simulation of an idealized Al-4.5%Cu alloy in… Show more

“…freckles, A-segregates, V-segregates [41]; whereas the first two are believed to form as a consequence of the enrichment of the interdendritic melt with light solute elements, leading to a decrease in the local melt density and the onset of thermosolutal convection [7], a mechanism for the third has still to be determined. Although the formation of channel segregates is a comparatively old problem [3,16,19,24,43], there is still considerable doubt as to whether existing numerical simulations are able to compute them correctly [35,36], as regards mesh independence; this refers primarily to their width, their length and the spacing between them. In particular, the approach adopted here could elucidate when and exactly where in the mushy zone they are initiated; a precursor to this is believed to be when remelting first occurs, i.e.…”

On macrosegregation in a binary alloy undergoing solidification shrinkage

“…freckles, A-segregates, V-segregates [41]; whereas the first two are believed to form as a consequence of the enrichment of the interdendritic melt with light solute elements, leading to a decrease in the local melt density and the onset of thermosolutal convection [7], a mechanism for the third has still to be determined. Although the formation of channel segregates is a comparatively old problem [3,16,19,24,43], there is still considerable doubt as to whether existing numerical simulations are able to compute them correctly [35,36], as regards mesh independence; this refers primarily to their width, their length and the spacing between them. In particular, the approach adopted here could elucidate when and exactly where in the mushy zone they are initiated; a precursor to this is believed to be when remelting first occurs, i.e.…”

On macrosegregation in a binary alloy undergoing solidification shrinkage

“…In addition, this approach would be well-suited not just to problems involving two moving boundaries, but also when the boundaries are not planar, as was demonstrated in (VYNNYCKY; KIMURA, 2007;VYNNYCKY;KIMURA, 2015) for the two-dimensional problem of the solidification of one-component material in the presence of natural convection in an enclosure. By tracking the solid and liquid interfaces explicitly, it is hoped to be able to avoid the usual issues of numerical dispersion and diffusion that are present in the numerically simulated macrosegregation profiles reported in the literature (DU; ESKIN; KATGERMAN, 2009;VOLLER, 2014;VOLLER, 2016).…”

Mathematical modelling of macrosegregation in binary alloys induced by convection

On the local solute redistribution equation of macrosegregation, remelting and the formation of channel segregates