5. C modeling#
5.1. Characteristics of modeling#
AXIS_FOURIER (QUAD9)
The mesh description axes are \(x(r)\) and \(y(z)\).
Fashion - Fourier: 3 \(T(A)=0.\)
\(S=5.\) |
all over the domain |
\([\mathrm{BC}]\): |
\(\phi =2.\) |
\([\mathrm{CD}]\): |
\(h=2.\) \({T}_{\mathrm{ext}}=2.\) |
5.2. Characteristics of the mesh#
Number of knots: 15.
Number of meshes and types: 2 QUAD9
5.3. notes#
Since the Fourier mode number does not affect the load, the MODE_FOURIER keyword is not required in the CALC_VECT_ELEM command.
5.4. Tested values#
Identification |
Reference |
\(T(B)\) |
|
\(T(C)\) |
|
\(T(D)\) |
|
\(T(F)\) |
0.25 |
\(T(G)\) |
0.25 |
\({\phi }_{r}(B)\) |
—2. |
\({\phi }_{r}(C)\) |
—2. |
\({\phi }_{r}(D)\) |
—2. |
\({\phi }_{r}(F)\) |
—1. |
\({\phi }_{r}(G)\) |
—1. |
\({\phi }_{\theta }(B)\) |
|
\({\phi }_{\theta }(C)\) |
|
\({\phi }_{\theta }(D)\) |
|
\({\phi }_{\theta }(F)\) |
1.5 |
\({\phi }_{\theta }(G)\) |
1.5 |
\({\phi }_{z}(B)\) |
|
\({\phi }_{z}(C)\) |
|
\({\phi }_{z}(D)\) |
|
\({\phi }_{z}(F)\) |
|
\({\phi }_{z}(G)\) |
5.5. notes#
The analytical solution has been found exactly.