4. B modeling#
4.1. Characteristics of modeling#
3D modeling
4.2. Characteristics of the mesh#
Number of knots: |
8 |
Number of meshes: |
1 of type HEXA 8 |
6 of type QUAD 4 |
The following meshes are defined:
\(\text{S\_ARR}\) |
|
\(\text{S\_AVT}\) |
|
\(\text{S\_DRT}\) |
|
\(\text{S\_GCH}\) |
|
\(\text{S\_INF}\) |
|
\(\text{S\_SUP}\) |
|
The travel limit conditions imposed are:
On nodes \(\mathrm{NO1}\), \(\mathrm{NO2}\), \(\mathrm{NO3}\), and \(\mathrm{NO4}\): \(\mathrm{DZ}=0\)
On nodes \(\mathrm{NO3}\), \(\mathrm{NO7}\), \(\mathrm{NO8}\), and \(\mathrm{NO4}\): \(\mathrm{DY}=0\)
On nodes \(\mathrm{NO2}\), \(\mathrm{NO6}\), \(\mathrm{NO7}\), and \(\mathrm{NO8}\): \(\mathrm{DX}=0\)
The load consists of the same drying field and the same nodal force, \(1/4\) applied to the four nodes of \(\text{S\_SUP}\).
4.3. Tested sizes and results#
The deformations obtained at node \(\mathrm{N6}\) of the \(\mathrm{M1}\) mesh are tested.
Identification |
Reference type |
Reference value |
Tolerance |
\({\varepsilon }_{\mathrm{zz}}\) at node \(\mathrm{NO6}\) at time 0.0 |
“ANALYTIQUE” |
0.0 |
|
\({\varepsilon }_{\mathrm{zz}}\) at node \(\mathrm{NO6}\) at time 1.0 |
“ANALYTIQUE” |
-3.87E-04 |
|
\({\varepsilon }_{\mathrm{zz}}\) at node \(\mathrm{NO6}\) at time 64800 |
“SOURCE_EXTERNE” |
-4.13E-04 |
|
\({\varepsilon }_{\mathrm{zz}}\) at node \(\mathrm{NO6}\) at time 648000 |
“SOURCE_EXTERNE” |
-5.73E-04 |
|
\({\varepsilon }_{\mathrm{zz}}\) at node \(\mathrm{NO6}\) at time 6480000 |
“SOURCE_EXTERNE” |
-1.27E-03 |
|
\({\varepsilon }_{\mathrm{zz}}\) at node \(\mathrm{NO6}\) at time 64800000 |
“SOURCE_EXTERNE” |
-3.45E-03 |
|