3. Modeling A#
3.1. Characteristics of modeling A#
Modeling AXIS_FOURIER in mode 1 (the decomposition of the load is carried out according to mode 1).
3.2. Characteristics of the mesh#
Number of knots: 455
Number of meshes and types: 400 TRIA3, 160 QUAD4
3.3. Tested sizes and results#
For \(\theta =45\),
Size |
Component |
Location |
Reference Type |
Reference Value |
Tolerance |
DEPL |
DX |
Point D (\(\mathit{N461}\)) |
“ANALYTIQUE” |
\(1.683587\times {10}^{-8}\) m |
0.25% |
DEPL |
DY |
Point D (\(\mathit{N461}\)) |
“ANALYTIQUE” |
\(0.0\) |
1.E-14Pa |
DEPL |
DZ |
Point D (\(\mathit{N461}\)) |
“ANALYTIQUE” |
\(1.683587\times {10}^{-8}\) |
|
DEPL |
DX |
Point C (\(\mathit{N460}\)) |
“ANALYTIQUE” |
\(1.683587\times {10}^{-8}\) |
|
DEPL |
DY |
Point C (\(\mathit{N460}\)) |
“ANALYTIQUE” |
\(-3.36717\times {10}^{-10}\) |
|
DEPL |
DZ |
Point C (\(\mathit{N460}\)) |
“ANALYTIQUE” |
\(1.683587\times {10}^{-8}\) |
|
SIGM_ELNO |
|
Point B (\(\mathit{N5}\)) |
“ANALYTIQUE” |
\(-176.77\) |
|
SIGM_ELNO |
|
Point B (\(\mathit{N5}\)) |
“ANALYTIQUE” |
\(-412.48\) |
|
SIGM_ELNO |
|
Point B (\(\mathit{N5}\)) |
“ANALYTIQUE” |
\(-176.77\) |
|
SIGM_ELNO |
|
Point B (\(\mathit{N5}\)) |
“ANALYTIQUE” |
\(0.0\) |
5.0 Pa |
SIGM_ELNO |
|
Point A (\(\mathit{N1}\)) |
“ANALYTIQUE” |
\(0.0\) |
45.0 Pa |
SIGM_ELNO |
|
Point A (\(\mathit{N1}\)) |
“ANALYTIQUE” |
\(0.0\) |
105.0 Pa |
SIGM_ELNO |
|
Point A (\(\mathit{N1}\)) |
“ANALYTIQUE” |
\(0.0\) |
45.0 Pa |
SIGM_ELNO |
|
Point A (\(\mathit{N1}\)) |
“ANALYTIQUE” |
\(0.0\) |
30.0 Pa |
3.4. notes#
The test reveals the need, in models with linear elements, to use very fine meshes in order to achieve satisfactory results.