@ARTICLE{Hajkowski_J._Cellular_2019,
 author={Hajkowski, J. and Popielarski, P. and Ignaszak, Z.},
 volume={vol. 19},
 number={No 3},
 journal={Archives of Foundry Engineering},
 pages={111-118},
 howpublished={online},
 year={2019},
 publisher={The Katowice Branch of the Polish Academy of Sciences},
 abstract={What is the limit of improvement the structure obtained directly from the liquid state, with possible heat treatment (supersaturation and aging)? This question was posed by casting engineers who put arbitrary requirements on reducing the DAS (Dendrite Arm Spacing) length to less than a dozen microns. The results of tests related to modification of the surface microstructure of AlSi7Mg alloy casting treated by laser beam and the rapid remelting and solidification of the superficial casting zone, were presented in the paper. The local properties of the surface treated with a laser beam concerns only a thickness ranging from a fraction to a single mm. These local properties should be considered in the aspect of application on surfaces of non-machined castings. Then the excellent surface layer properties can be used. The tests were carried out on the surface of the casting, the surface layer obtained in contact with the metal mould, after the initial machining (several mm), was treated by the laser beam. It turned out that the refinement of the microstructure measured with the DAS value is not available in a different way, i.e. directly by casting. The experimental-simulation validation using the Calcosoft CAFE (Cellular Automaton Finite Element) code was applied.},
 type={Article},
 title={Cellular Automaton Finite Element Method Applied for Microstructure Prediction of Aluminium Casting Treated by Laser Beam},
 URL={http://www.journals.pan.pl/Content/113135/PDF/AFE%203_2019_19.pdf},
 doi={10.24425/afe.2019.129620},
 keywords={Cellular automaton, Dendrite arm spacing, Remelting by laser beam, Aluminium alloys, Tribology},
}