Differences

This shows you the differences between two versions of the page.

--- commit:2019:04_09 [2019/04/09 12:05] – [General modifications] boemer
+++ commit:2019:04_09 [2019/04/09 12:12] – boemer
@@ Line 1: / Line 1: @@
-====== Commit 2019-04-08 ======
+====== Commit 2019-04-09 ======
-In this commit, the asperity flattening model (oo_meta/aspCrushing/boemer, commit 3186) was updated.  This version has to be used with version 1530 of Metalub to run the coupling procedure.  Additional information can be found in Boemer's thesis document.  The following modifications were applied to the model, which is represented in the following figure, and to the general file structure.
+In this commit, the asperity flattening model (oo_meta/aspCrushing/boemer, commit 3186) was updated.  This version has to be used with version 1531 of Metalub to run the coupling procedure.  Additional information can be found in Boemer's thesis document.  The following modifications were applied to the model, which is represented in the following figure, and to the general file structure.
-{{ :commit:2019:04_08:flatteningmodel.png?800 |}}
+{{ :commit:2019:04_09:flatteningmodel.png?800 |}}
@@ Line 24: / Line 24: @@
   * The regression tests are based on **test 5B-4** of the experimental campaign at Maizières-lès-Metz in 2014.  The data in the folder ''bc'' was created by the Metalub model of this test (without thermoplasticity and with a triangular asperity profile, as explained in Boemer's thesis document);
   * The tests were renamed to ''dry.py'' and ''lub.py'' in ''aspCrushing/boemer/tests'' to be more concise;
-  * The file, which contains the out-of-plane length of the strip portion, i.e. ''res_bc_epsx.ascii'' is renamed to ''res_bx_lxs'', to be coherent with the notations.  While $\epsilon_{x}$ is a deformation, $l_{x,s}$ is a length;
+  * The file, which contains the out-of-plane length of the strip portion, i.e. ''res_bc_epsx.ascii'' is renamed to ''res_bx_lxs'', to be coherent with the notations.  While $\epsilon_{x}$ is a deformation, $l_{x,s}$ is a length (of the strip);
   * ''tools/flattening.py'' and ''tools/geoLinear.py'' were renamed to ''tools/aspFlattening.py'' and ''tools/aspGeoMesh.py'', to be more precise and since more complex geometries than a //linear// triangular asperity profile can be modeled.