Merge from V6_main (04/10/2012)

[plugins/netgenplugin.git] / doc / salome / gui / NETGENPLUGIN / input / netgen_2d_3d_hypo.doc

diff --git a/doc/salome/gui/NETGENPLUGIN/input/netgen_2d_3d_hypo.doc b/doc/salome/gui/NETGENPLUGIN/input/netgen_2d_3d_hypo.doc
index 7a75cddb11e8d343f8a2b25c621011e3aae95af9..87e31cbd2fe2e9758306f28fc24d9034f61a30cf 100644 (file)
--- a/doc/salome/gui/NETGENPLUGIN/input/netgen_2d_3d_hypo.doc
+++ b/doc/salome/gui/NETGENPLUGIN/input/netgen_2d_3d_hypo.doc
@@ -24,8 +24,7 @@ algorithms </em></center>
 - <b>Min Size</b> - minimum linear dimensions for mesh cells. It is
 ignored if it is more than <b>Max Size</b>.
 - <b>Second Order</b> - if this box is checked in, the algorithm will
 - <b>Min Size</b> - minimum linear dimensions for mesh cells. It is
 ignored if it is more than <b>Max Size</b>.
 - <b>Second Order</b> - if this box is checked in, the algorithm will

-create second order nodes on the mesh, which actually will become
-\ref adding_quadratic_elements_page "Quadratic".
+create second order nodes on the mesh, which will then become quadratic.

 - <b>Fineness</b> - ranging from Very Coarse to Very Fine allows to set the
 level of meshing detalization using the three parameters below. You
 can select Custom to define them manually.
 - <b>Fineness</b> - ranging from Very Coarse to Very Fine allows to set the
 level of meshing detalization using the three parameters below. You
 can select Custom to define them manually.


@@ -59,17 +58,18 @@ parameters</b> allow defining the size of elements for each
 dimension.
 
 \b 1D group allows defining the size of 1D elements in either of two ways: 
 dimension.
 
 \b 1D group allows defining the size of 1D elements in either of two ways: 

-- <b>Number of Segments</b> has the same sense as \ref
-number_of_segments_anchor "Number of segments" hypothesis with
-equidistant distribution.
-- <b>Local Length</b> has the same sense as \ref 
-average_length_anchor "Local Length" hypothesis.
+- <b>Number of Segments</b> allows specifying number of segments, that
+will split each edge, with equidistant distribution.
+- <b>Local Length</b> can be applied for meshing of edges
+composing geometrical object. Definition of this hypothesis
+consists of setting required \b length of segments.

 
 \b 2D group allows defining the size of 2D elements 
 
 \b 2D group allows defining the size of 2D elements 

-- <b>Length from edges</b> if checked in, acts like \ref
-length_from_edges_anchor "Length from Edges" hypothesis, else
-- <b>Max. Element Area</b> defines the maximum element area like \ref
-max_element_area_anchor "Max Element Area" hypothesis.
+- <b>Length from edges</b> if checked in, hypothesis forces building of
+2D mesh segments having a length calculated as an average edge length
+for a given wire, else
+- <b>Max. Element Area</b> specifies expected maximum element area for
+each 2d element.

 - <b>Allow Quadrangles</b> - allows to use quadrangle elements in a
 triangle 2D mesh. This checkbox is not present in Netgen 3D simple parameters
 because currently building a tetrahedral mesh with quadrangle faces is
 - <b>Allow Quadrangles</b> - allows to use quadrangle elements in a
 triangle 2D mesh. This checkbox is not present in Netgen 3D simple parameters
 because currently building a tetrahedral mesh with quadrangle faces is


@@ -78,9 +78,8 @@ not possible.
 \b 3D groups allows defining the size of 3D elements.
 - <b>Length from faces</b> if checked in, the area of sides of
 volumic elements will be equal to an average area of 2D elements, else
 \b 3D groups allows defining the size of 3D elements.
 - <b>Length from faces</b> if checked in, the area of sides of
 volumic elements will be equal to an average area of 2D elements, else

-- <b>Max. Element Volume</b> defines the maximum element volume like
-\ref max_element_volume_hypo_page "Max Element Volume"
-hypothesis.
+- <b>Max. Element Volume</b> specifies expected maximum element volume
+of each 3d element.

 
 \note Netgen algorithm does not strictly follow the input
 parameters. The actual mesh can be more or less dense than
 
 \note Netgen algorithm does not strictly follow the input
 parameters. The actual mesh can be more or less dense than