Difference between revisions of "ExtrapolateRigid Command"

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(Created page with "The <tt>ExtrapolateRigid</tt> command activates a mode where rigid particles for setting boundary conditions extrapolate to the nodes before setting boundary conditions: == U...")
 
 
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  ExtrapolateRigid <(option)>
  ExtrapolateRigid <(option)>


where (option) is "yes" to activate the mode or anything else to not activate the mode. If this optional command is omitted, it is assumed to be "yes". In XML input files, the mode is activated with an empty command, which must be within the [[MPM Input Files#MPM Header|<tt><MPMHeader></tt> element]], is
where (option) is "yes" to activate the mode or anything else to not activate the mode. If this optional command is omitted, it is assumed to be "yes". In XML input files, the mode is activated with the empty command, which must be within the [[MPM Input Files#MPM Header|<tt><MPMHeader></tt> element]]:


  < ExtrapolateRigid/>
  < ExtrapolateRigid/>
When this option is activated, all [[Rigid Material|rigid material]] particles that set boundary conditions for velocity, temperature, or concentration, will extrapolate to the grid first and then set boundary conditions using those extrapolated values instead of the rigid particle velocity, temperature, or concentration. It is normally used when the rigid particle values vary with position, such as loading in shear.
When this option is activated, all [[Rigid Material|rigid material]] particles that set boundary conditions for velocity, temperature, or concentration, will extrapolate to the grid first and then set boundary conditions using those extrapolated values instead of the rigid particle velocity, temperature, or concentration. This option only provides potential benefit when the rigid particle values vary with position, such as loading in shear. When all rigid particles have the same velocity, it is better to not use this option.


== Notes ==
== Notes ==
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<ol>
<ol>


<li>When this mode is activated, all rigid particles use the extrapolation approach and the boundary conditions they create are assigned ID = -40 (which can be used when archiving reaction forces.)
<li>When this mode is activated, all [[Rigid Material|rigid material]] particles use the extrapolation approach and the boundary conditions they create are assigned ID = -40, which can be used when [[MPM Global Archiving Options|archiving reaction forces]]. In this mode it is not possible to separate reaction forces on different types of [[Rigid Material|rigid material]].


<li>When this mode is activated, the mirror property for rigid materials is ignored
<li>When this mode is activated, the [[Rigid Material#Mirrored Velocity Propertyl|mirror]] property for [[Rigid Material|rigid materials]] is ignored


</ol>
</ol>

Latest revision as of 13:20, 7 February 2017

The ExtrapolateRigid command activates a mode where rigid particles for setting boundary conditions extrapolate to the nodes before setting boundary conditions:

Use ExtrapolateRigid

In scripted files, the command is

ExtrapolateRigid <(option)>

where (option) is "yes" to activate the mode or anything else to not activate the mode. If this optional command is omitted, it is assumed to be "yes". In XML input files, the mode is activated with the empty command, which must be within the <MPMHeader> element:

< ExtrapolateRigid/>

When this option is activated, all rigid material particles that set boundary conditions for velocity, temperature, or concentration, will extrapolate to the grid first and then set boundary conditions using those extrapolated values instead of the rigid particle velocity, temperature, or concentration. This option only provides potential benefit when the rigid particle values vary with position, such as loading in shear. When all rigid particles have the same velocity, it is better to not use this option.

Notes

  1. When this mode is activated, all rigid material particles use the extrapolation approach and the boundary conditions they create are assigned ID = -40, which can be used when archiving reaction forces. In this mode it is not possible to separate reaction forces on different types of rigid material.
  2. When this mode is activated, the mirror property for rigid materials is ignored