In modeling the solidification of an alloy, two central numerical problems are: 1. The calculation of thermal and species transport fields which satisfy the conservation equations and are also consistent with the underlying thermodynamics. 2. The treatment of local scale solute diffusion. In this paper, in the context of modeling inverse segregation in a uni-directionally solidified casting, a recently proposed implicit/explicit time integration scheme for coupling thermal and solutal fields is presented and possible ways of capturing the local scale solute diffusion in a macroscopic model are explored. A key element in this work is the validation of the proposed approach by comparison with a sophisticated similarity solution.
|Original language||English (US)|
|Number of pages||9|
|Journal||Canadian Metallurgical Quarterly|
|State||Published - 1998|
|Event||Proceedings of the 1996 Symposium on the Computational Fluid Dynamics and Heat/Mass Transfer Modeling (CFD and HMTM) in the Metallurgical Industry - Montreal, Can|
Duration: Aug 1 1996 → Aug 1 1996