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Chinese Physics, 2006, Vol. 15(4): 778-791    DOI: 10.1088/1009-1963/15/4/019
CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES Prev   Next  

Numerical simulation of dendrite growth and microsegregation formation of binary alloys during solidification process

Li Qiang (李强)a, Guo Qiao-Yi (郭巧懿)b, Li Rong-De (李荣德)a
a School of Material Science and Engineering, Shenyang University of Technology, Shenyang 110023, China; b Shenyang Ligong University, Shenyang 110168, China
Abstract  The dendrite growth and solute microsegregation of Fe-C binary alloy are simulated during solidification process by using cellular automaton method. In the model the solid fraction is deduced from the relationship among the temperature, solute concentration and curvature of the solid/liquid interface unit, which can be expressed as a quadric equation, instead of assuming the interface position and calculating the solid fraction from the interface velocity. Then by using this model a dendrite with 0 and 45 degree of preferential growth direction are simulated respectively. Furthermore, a solidification microstructure and solute microsegregation are simulated by this method. Finally, different Gibbs-Thomson coefficient and liquid solute diffusing coefficient are adopted to investigate their influences on the morphology of dendrite.
Keywords:  dendrite      simulation      cellular automaton      solidification  
Received:  08 November 2005      Revised:  28 December 2005      Accepted manuscript online: 
PACS:  68.70.+w (Whiskers and dendrites (growth, structure, and nonelectronic properties))  
  64.70.D- (Solid-liquid transitions)  
  64.75.-g (Phase equilibria)  
  68.08.De (Liquid-solid interface structure: measurements and simulations)  
  81.30.Fb (Solidification)  
Fund: Project supported by the Educational Department of Liaoning Province (Grant No 05L304).

Cite this article: 

Li Qiang (李强), Guo Qiao-Yi (郭巧懿), Li Rong-De (李荣德) Numerical simulation of dendrite growth and microsegregation formation of binary alloys during solidification process 2006 Chinese Physics 15 778

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