Effect of anisotropy on deep cellular crystal growth in directional solidification
Abstract
The effect of anisotropic surface tension and anisotropic interface kinetics on deep cellular crystal growth is studied. An asymptotic solution of deep cellular crystal growth in directional solidification is obtained by using the matched asymptotic expansion method and the multiple variable expansion method. The results show that as the anisotropic parameters increase, the total length of deep cellular crystal increases and the root depth increases, whereas the curvature of the interface near the root increases or the curvature radius decreases.
- Publication:
-
Modern Physics Letters B
- Pub Date:
- June 2016
- DOI:
- 10.1142/S0217984916502055
- Bibcode:
- 2016MPLB...3050205J
- Keywords:
-
- Crystal morphology;
- directional solidification;
- interfaces;
- morphological stability;
- 68.70.+w;
- 81.10.Aj;
- 81.30.Fb;
- Whiskers and dendrites;
- Theory and models of crystal growth;
- physics of crystal growth crystal morphology and orientation;
- Solidification