Trans Tech Publications, Solid State Phenomena, (116-117), p. 614-617, 2006
DOI: 10.4028/www.scientific.net/ssp.116-117.614
Trans Tech Publications, Solid State Phenomena, p. 614-617
DOI: 10.4028/3-908451-26-4.614
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[Abstract]: Computer simulation of semisolid structure formation is of significance in both understanding the mechanisms of the formation of such structure and optimization the solidification conditions for the required structure. A modified cellular automaton (mCA) model has been developed, which is coupled with macroscopic models for heat transfer calculation and microscopic models for nucleation and grain growth. The mCA model is applied to Al-Si alloys, one of the most widely used semisolid alloys. It predicts microstructure morphology and grain size during semi-solid solidification, and determines the effects of poring temperature and mould temperature on the final microstructure. The simulated results are compared with those obtained experimentally. The resulting simulations give some insight into the mechanisms about the semisolid structure formation in Controlled Nucleation process.