PARADISCYL:Cylinder-test: Difference between revisions
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|colspan="2" | Fig.1 (a) Isoview (b) Topview.The Bergurs vector is <math>\mathbf{b} = a[1 0 0]</math>. |
|colspan="2" | Fig.1 (a) Isoview (b) Topview.The Bergurs vector is <math>\mathbf{b} = a[1 0 0]</math>. |
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Since the image stress field of this configuration is solved analytically[Eshelby, J.D., 1979], we compare |
Since the image stress field of this configuration is solved analytically[Eshelby, J.D., 1979], we compare the image force between the simulation result and analytic solution.The number of grids in circumferential direction is same as the one along the cylinder axis.To consider periodic images along the cylinder axis under PBC, analytical stress field of edge dislocation is implemented in the function of "AllSegmentStress_no_cell_test1" |
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the effect of periodic images |
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along the cylindrical axis (where PBC is applied) is accounted for by including 50 images |
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on each side explicitly, and using a multipole expansion for the rest. |
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Revision as of 09:23, 17 November 2011
Test Cases in cylinder code
ill Ryu and Wei Cai
This tutorial describes test cases to check if cylinder code works well, especially for the image stress calculation. We provide Matlab files which generates ParaDiS inputs and plot the results. The theoretical background is published in Computing Image Stress in an Elastic Cylinder, Journal of the Mechanics and Physics of Solids, 55, 2027 (2007). (PDF) and Dislocation Dynamics Simulations in a Cylinder, Proceedings of the Dislocations 2008 International Conference, IOP Conference Series: Materials Science and Engineering, vol 3,012007 (2009).(PDF)
TEST1 : Straight edge dislocation along the cylinder axis
In the first test case, image stress of a straight edge dislocation is considered, as shown in the Figure 1, where dislocation is offset() from the center of the cylinder. We have two cases of =0.5 and 0.9. is the radius of the cylinder.