Outgoing concept ================= The COMB_SISM_MODALproduit operator is a mult_elas concept. The various results are accessible via the NOM_CAS parameter. The value of the NOM_CAS parameter is set by the COMB_SISM_MODAL operator based on the desired output results (see ยง :ref:`3.8 `). Therefore, the naming rules below should be applied to determine the value of the NOM_CAS parameter associated with the desired result. Remember that NOM_CAS is a character string limited to 16 characters. The calculated fields are printed into the "result" file using the IMPR_RESU [:external:ref:`U4.91.01 `] commands by specifying the appropriate value of the parameter NOM_CAS. +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |TYPE = |correspondence |Rule NOM_CAS |Example NOM_CAS | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_SPEC |Single-press case: i-th mode response in the k-th direction |'SPEC_ik' |'SPEC_1X' 'SPEC_3Y' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Multi-support case: i-th mode response due to the movement of the support name_support in the k-th direction |'SPEC_iknom_appui'|'SPEC_1Xsup1' 'SPEC_3Ysup2'| +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_TOTA |total accumulation on the directions (maximum value :math:`{R}_{\mathit{max}}` if COMB_DIRECTION = 'NEWMARK')|'TOTA' |'TOTA' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Cumulation on directions to the j-th combination only if COMB_DIRECTION = 'NEWMARK' |'NEWM_j' |'NEWM_1' 'NEWM_2' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_DIRE |Directional response :math:`X` |'DIRE_X' |'DIRE_X' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Directional response :math:`Y` |'DIRE_Y' |'DIRE_Y' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Directional response :math:`Z` |'DIRE_Z' |'DIRE_Z' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |Only if COMB_DIRECTION = 'QUAD' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_DYNA |dynamic directional contribution, direction :math:`X` |'PART_DYNA_X' |'PART_DYNA_X' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |dynamic directional contribution, direction :math:`Y` |'PART_DYNA_Y' |'PART_DYNA_Y' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |dynamic directional contribution, direction :math:`Z` |'PART_DYNA_Z' |'PART_DYNA_Z' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |dynamic contribution |'PART_DYNA' |'PART_DYNA' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_QS |Quasi-static contribution, direction :math:`X` |'PART_QS_X' |'PART_QS_X' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Quasi-static contribution dir, direction :math:`Y` |'PART_QS_Y' |'PART_QS_Y' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Quasi-static contribution, direction :math:`Z` |'PART_QS_Z' |'PART_QS_Z' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |total quasistatic contribution |'PART_QS' |'PART_QS' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_DDS |Direct response to the driving movement, direction :math:`X` |'PART_DDS_X' |'PART_DDS_X' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Direct response to the driving movement, direction :math:`Y` |'PART_DDS_Y' |'PART_DDS_Y' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Direct response to the drive movement, direction :math:`Z` |'PART_DDS_Z' |'PART_DDS_Z' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Response to the training movement |'PART_DDS' |'PART_DDS' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ |VALE_INER |Inertial component dir, direction :math:`X` |'PART_INER_X' |'PART_INER_X' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Inertial component, direction :math:`Y` |'PART_INER_Y' |'PART_INER_Y' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Inertial componentdir direction :math:`Z` |'PART_INER_Z' |'PART_INER_Z' | + +-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ | |Inertial component |'PART_INER' |'PART_INER' | +-------------------------------+-------------------------------------------------------------------------------------------------------------+------------------+---------------------------+ **Example:** We want to output total responses as well as directional responses for the directions' X ',' Y ': TYPE_RESU =( _F (TYPE =" VALE_TOTA "), _F (TYPE =" VALE_DIRE ", LIST_AXE =( "X", "Y"), ), We want to print from the resu result of COMB_SISM_MODAL under SD mult_elas the results in MED format for the directional answers 'X', 'Y' and in format RESULTAT for the total answer: IMPR_RESU (FORMAT =" RESULTAT ", RESU =_F (RESULTAT =resu, NOM_CAS =" TOTA "),), IMPR_RESU (FORMAT =" MED ", RESU =( _F (RESULTAT =resu, NOM_CAS =" DIRE_X "), _F (RESULTAT =resu, NOM_CAS =" DIRE_Y "), ), ), "NUME_ORDRE ", "correspondence", "NOEUD_CMP 1"," NOEUD_CMP 2" "1", "direction :math:`X` ", "'DIR'", "'X'" "2", "direction :math:`Y` ", "'DIR'", "'Y'" "3", "direction :math:`Z` ", "'DIR'", "'Z'" "4", "total accumulation on directions (if requested)", "'COMBI'", "'LINE', 'QUAD' or 'ABS'" "11", "dynamic contribution, direction :math:`X` ", "'DIR_DYN'", "'X'" "12", "dynamic contribution, direction :math:`Y` ", "'DIR_DYN'", "'Y'" "13", "dynamic contribution, direction :math:`Z` ", "'DIR_DYN'", "'Z'" "14", "dynamic contribution, accumulation on directions (if requested)", "'COMBI_DYN'", "'LINE', 'QUAD' or 'ABS'" "21", "quasistatic contribution, direction :math:`X` ", "'DIR_QS'", "'X'" "22", "quasistatic contribution, direction :math:`Y` ", "'DIR_QS'", "'Y'" "23", "quasistatic contribution, direction :math:`Z` ", "'DIR_QS'", "'Z'" "24", "semi-static contribution, cumulative on directions (if requested)", "'COMBI_QS'", "'LINE', 'QUAD' or 'ABS'"