Hi Brend,
This is the dendrite growth in a solidification process that I made, but why is there no secondary diameter? And why does the concentration of CONC1 change as a whole during its evolution? Hope to get your answer.
Wish you a happy life, smooth work.
Lv Shaojie
solidification
solidification
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Re: solidification
Dear Lv Shaojie,
I think the main problem is the high initial undercooling which is not overcome during the simulated transient. This leads to a very fine microstructure which is not typical for the specified conditiions, and furthermore for non-stationary conditions with changing compositions.
For simulation of this initial transient (quenching), you would need a much finer grid resolution, if this is really what you intend. In any case, using 4 cells of interface thickness is more than necessary and further reduces effective resolution. I would recommend a value just above 2 x SQRT(2), i.e. 2.85, but not more than 3.
Furthermore, I found the inconsistency of using different boundary conditions on the left and right side (s and i for east and west). I assume that this is not intended, and would recommend using periodic boundary conditions ("p") instead.
Bernd
I think the main problem is the high initial undercooling which is not overcome during the simulated transient. This leads to a very fine microstructure which is not typical for the specified conditiions, and furthermore for non-stationary conditions with changing compositions.
For simulation of this initial transient (quenching), you would need a much finer grid resolution, if this is really what you intend. In any case, using 4 cells of interface thickness is more than necessary and further reduces effective resolution. I would recommend a value just above 2 x SQRT(2), i.e. 2.85, but not more than 3.
Furthermore, I found the inconsistency of using different boundary conditions on the left and right side (s and i for east and west). I assume that this is not intended, and would recommend using periodic boundary conditions ("p") instead.
Bernd