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commit:2019:04_09 [2019/04/09 12:10] boemercommit:2019:04_09 [2019/04/09 18:32] (current) – [Modifications of the model] boemer
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 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. 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 |}}
  
  
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   * In addition to the computation via the intersections of the roll and strip profiles, the **relative contact area can be calculated by the contact status** and the projection of the associated area onto the horizontal by setting ''p['extrA']'' to '''status''' instead of '''intersection''';   * In addition to the computation via the intersections of the roll and strip profiles, the **relative contact area can be calculated by the contact status** and the projection of the associated area onto the horizontal by setting ''p['extrA']'' to '''status''' instead of '''intersection''';
   * The specific values in this model are based on those of test 5B-4 of the experimental campaign at Maizières-lès-Metz in 2014, which were adjusted to have triangular asperities and no thermoplasticity in the flattening model.  Hence, Autesserre hardening (i.e. SMATCH), was replaced by Ludwig hardening (elastoplastic component of Johnson-Cook), which is wrongly called Swift hardening in Metafor.   * The specific values in this model are based on those of test 5B-4 of the experimental campaign at Maizières-lès-Metz in 2014, which were adjusted to have triangular asperities and no thermoplasticity in the flattening model.  Hence, Autesserre hardening (i.e. SMATCH), was replaced by Ludwig hardening (elastoplastic component of Johnson-Cook), which is wrongly called Swift hardening in Metafor.
-  * The previous extraction method is required if the contact gap is minimized by the **augmented Lagrangian method**, which was also added to this model, before noticing that the results are mesh-dependent, when the lubricant pressure becomes equal to the interface pressure;+  * The previous extraction method is required if the contact gap is controlled by the **augmented Lagrangian method**, which was also added to this model, before noticing that the results are mesh-dependent, when the lubricant pressure becomes equal to the interface pressure;
   * The position of the node of the upper edge of the strip are only extracted when ''p['extrEdge']'' is set to ''True'', in order to minimize the data, which is written to file during a run of the coupling procedure;   * The position of the node of the upper edge of the strip are only extracted when ''p['extrEdge']'' is set to ''True'', in order to minimize the data, which is written to file during a run of the coupling procedure;
   * Specific time steps can be written to file by setting the elements of the list ''p['tExtr']''.   * Specific time steps can be written to file by setting the elements of the list ''p['tExtr']''.
commit/2019/04_09.1554804605.txt.gz · Last modified: 2019/04/09 12:10 by boemer

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