which is actually shown -, the obstacle corresponds
to a Chinese character that is discussed below):
-@image html step-42-CellConstitutionLi2.png
+@image html step-42.CellConstitutionLi2.png
This problem description implies that we have to take care of an additional
the overall setup. In particular, the latter
class allows us to read in an obstacle from a file. In the example we
will show in the results section, this file will be
-'obstacle_file.dat' and will correspond to data that shows the Chinese, Japanese or
+<code>'obstacle_file.dat'</code> and will correspond to data that shows the
+Chinese, Japanese or
Korean symbol for force or power (see http://www.orientaloutpost.com/ :
"This word can be used for motivation - it
can also mean power/motion/propulsion/force. It can be anything
power" or "kinetic energy" (without the motivation meaning that you are
probably looking for)"). In essence, we will pretend that we have a stamp
(i.e., a mask that corresponds to a flat bottomed obstacle with no pieces
-of intermediate height) that we press into the body - see the picture at
-the top of this section.
+of intermediate height) that we press into the body. The symbol in question
+looks as follows (see also the picture at
+the top of this section on how the end result looks like):
+
+@image html step-42.symbol.png
<table align="center">
<tr>
<td>
- @image html step-42-CellConstitutionColorbar.png
+ @image html step-42.CellConstitutionColorbar.png
</td>
<td>
- @image html step-42-CellConstitutionBall2.png
+ @image html step-42.CellConstitutionBall2.png
</td>
<td valign="top">
</td>
<td>
- @image html step-42-CellConstitutionLi2.png
+ @image html step-42.CellConstitutionLi2.png
</td>
</tr>
</table>
change of some material parameters.
It might be of interest to implement more accurate, problem-adapted error
-estimators for contact as well as for the plasticity.
\ No newline at end of file
+estimators for contact as well as for the plasticity.