3. Operands#
3.1. Operands MODELE/CARA_ELEM/CHAM_MATER#
♦ MODELE = me,
The name of the model on which the option is calculated.
◊ CARA_ELEM = character,
Elementary characteristics associated with the mo model, if it contains structural elements or if the isoparametric elements are assigned a local anisotropy coordinate system.
Only for option ROCH_ELNO:
♦ CHAM_MATER = chmat,
Material field. Must contain elastic data and POST_ROCHE material.
3.2. Selection of the meshes concerned by the calculation#
The keywords TOUT = “OUI” and GROUP_MA allow the user to choose the meshes on which he wants to do his basic post-processing calculations.
/TOUT = 'OUI'
All meshes (carrying finite elements) will be treated. This is the by default value.
/GROUP_MA = l_grma
Only the meshes included in l_grma will be processed.
3.3. Operand INST#
◊ INST
Value of the moment allowing the evaluation of possible functions in the material parameters for the calculation of the heat flow.
3.4. Thermal options#
Elementary thermal calculation options can be calculated from a temperature field:
♦ TEMP = time
For these calculations we need the material field associated with the mo model:
♦ CHAM_MATER = to kill,
The options available are:
Their meaning is given in [U4.81.04].
In the case of models AXIS_FOURIER and PLAN_FOURIER, you can specify the harmonic number by the keyword: MODE_FOURIER.
3.5. Acoustic options#
Elementary calculation options in acoustics can be calculated from a complex pressure field:
♦ PRES = near
The available option is:
Calculation of the real and imaginary parts of the pressure field by element at the nodes.
3.6. Option COOR_ELGA#
Calculate the coordinates and weights of the Gauss points for each element.
3.7. Option ROCH_ELNO#
This option places the values of certain material parameters and certain beam characteristics in the form of a field at the nodes per element. The output field has 10 components described in the following table:
Components |
Correspondence |
E |
Young’s module |
K_ FACT |
Parameter FACTEURde POST_ROCHE |
N_ EXPO |
Parameter EXPOSANTde POST_ROCHE |
A |
Beam cross section area (circular) |
I |
Inertia of the beam section (circular) |
R |
Outer radius of the beam section (circular) |
EP |
Pipe Thickness |
I2 |
Inertia value at the other nodes of the same mesh |
R2 |
Value of the radius at the other nodes of the same mesh |
EP2 |
Thickness value at the other nodes of the same mesh |
This option is used for the specific needs of macro command POST_ROCHE.
Attention, the parameter E must not be a function.