Authors: Hervé Combeau Miha Založnik Stéphane Hans Pierre Emmanuel Richy
Publish Date: 2008/10/21
Volume: 40, Issue: 3, Pages: 289-304
Abstract
Although a significant amount of work has already been devoted to the prediction of macrosegregation in steel ingots most models considered the solid phase as fixed As a result it was not possible to correctly predict the macrosegregation in the center of the product It is generally suspected that the motion of the equiaxed grains is responsible for this macrosegregation A multiphase and multiscale model that describes the evolution of the morphology of the equiaxed crystals and their motion is presented The model was used to simulate the solidification of a 33ton steel ingot Computations that take into account the motion of dendritic and globular grains and computations with a fixed solid phase were performed and the solidification and macrosegregation formation due to the grain motion and flow of interdendritic liquid were analyzed The predicted macrosegregation patterns are compared to the experimental results Most important it is demonstrated that it is essential to consider the grain morphology in order to properly model the influence of grain motion on macrosegregation Further due to increased computing power the presented computations could be performed using finer computational grids than was possible in previous studies this made possible the prediction of mesosegregations notably A segregates
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