Modeling A ============== Characteristics of modeling ----------------------------------- The straight elements are modeled by POU_D_T elements. Curved elements are also modeled by POU_D_T elements (20 elements per bend). .. image:: images/1000200E000019380000196DD0736C1CFFD4EEF2.svg :width: 325 :height: 327 .. _RefImage_1000200E000019380000196DD0736C1CFFD4EEF2.svg: Characteristics of the mesh ---------------------------- .. csv-table:: "Number of knots:", "51", "Number of stitches and types:", "50 POU_D_T (10 for the parts straight)" notes --------- The modes are standardized as follows: largest component (degree of freedom of translation or rotation) to one. The overall response is obtained by quadratic combination of the directions of the excitations. Tested sizes and results ------------------------------ Structure frequencies (full mass matrix). .. csv-table:: "**Natural Frequencies**", "**Reference**" "Fashion 1", "10.39" "2", "20.02" "3", "25.45" "4", "48.32" "5", "52.60" "6", "84.81" "7", "87.16" "8", "129.31" "9", "131.69" Structure frequencies (diagonal mass matrix). .. csv-table:: "**Natural Frequencies**", "**Reference**" "1", "10.18" "2", "19.54" "3", "25.47" "4", "48.09" "5", "52.86" "6", "75.94" "7", "80.11" "8", "122.34" "9", "123.15" .. _RefNumPara__3540_3484103119: Single-press spectral response (calculation 1) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The correction of frequencies due to damping is not taken into account (option CORR_FREQ to NON in operator COMB_SISM_MODAL) Displacement .. csv-table:: "**Identifier**", "**cation**", "", "**Reference**" "DEPL "," :math:`N300` ", "DX", "4.84710—3" "", "", "DY", "2.19210—3" "", "", "DZ", "2.73510—6" "", ":math:`N500` ", "DX", "4.80810—3" "", "", "DY", "2.91410—3" "", "", "DZ", "6.50710—4" "", ":math:`N700` ", "DX", "3.5810—3" "", "", "DY", "2.91410—3" "", "", "DZ", "8.59910—4" "", ":math:`N900` ", "DX", "2.34210—3" "", "", "DY", "2.91310—3" "", "", "DZ", "1.02710—3" "", ":math:`N1100` ", "DX", "3.00910—6" "", "", "DY", "9.37510—4" "", "", "DZ", "3.36410—4" Nodal reaction .. csv-table:: "**Identifier**", "**cation**", "", "**Reference**" "REAC "," :math:`N100` ", "DX", "2132.0" "", "", "DY", "1241.0" "", "", "DZ", "564.6" "", "", "DRX ", "2352.0" "", "", "DRY ", "4746.0" "", "", "DRZ ", "937.3" "", ":math:`N1500` ", "DX", "1653.0" "", "", "DY", "3354.0" "", "", "DZ", "893.7" "", "", "DRX ", "170.8" "", "", "DRY ", "1668.0" "", "", "DRZ ", "4903.0" Generalized efforts .. csv-table:: "**Identifier**", "**cation**", "", "**Reference**" "EFGE "," :math:`N300` ", "N", "559.9" "", "", "VY", "430.8" "", "", "VZ", "914.9" "", "", "MT", "932.5" "", "", "MFY ", "587.3" "", "", "MFZ ", "620.4" "", "N700", "N", "1625.0" "", "", "VY", "1367.0" "", "", "VZ", "225.4" "", "", "MT", "649.6" "", "", "MFY ", "499.8" "", "", "MFZ ", "908.7" .. csv-table:: "", "N1100", "N", "1652.0" "", "", "VY", "3177.0" "", "", "VZ", "795.7" "", "", "MT", "170.6" "", "", "MFY ", "924.7" "", "", "MFZ ", "2150.0" Single-press spectral response with static correction (calculation 2) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Same as § :ref:`3.4.1 `, but taking into account static correction and removing contributions from the last two modes. We test the total (NOM_CAS =' TOTA '), dynamic (NOM_CAS =' PART_DYNA'), which must correspond to the contribution of the first 7 modes without static correction, and static (NOM_CAS =' PART_QS ') components, which must correspond to the quadratic difference between the total and dynamic components. Travel: .. csv-table:: "**ID**", "**cation**", "NOM_CAS "", "", "**NOM_CMP**", "**Reference type**", "**Reference**" "DEPL "," :math:`N300` ", "'TOTA'", "''", "DX", "SOURCE_EXTERNE ", "4.847E-03" "", "", "'TOTA'", "DY", "SOURCE_EXTERNE ", "2.192E-03", "" "", "", "'TOTA'", "DZ", "SOURCE_EXTERNE ", "2.735E-06", "2.735E-06" "", ":math:`N300` ", "'PART_DYNA'", "DX", "AUTRE_ASTER ", "4.880E-03" "", "", "'PART_DYNA'", "DY", "AUTRE_ASTER ", "2.1987E-03", "2.1987E-03" "", "", "'PART_DYNA'", "DZ", "AUTRE_ASTER ", "2.6496E-06", "" "", ":math:`N300` ", "'PART_QS'", "DX", "AUTRE_ASTER ", "8.2022E-07" "", "", "'PART_QS'", "DY", "AUTRE_ASTER ", "5.8656E-07" "", "", "'PART_QS'", "DZ", "AUTRE_ASTER ", "8.5755E-07" Nodal reactions: .. csv-table:: "**ID**", "**cation**", "NOM_CAS "", "", "**NOM_CMP**", "**Reference type**", "**Reference**" "REAC_NODA "," :math:`N100` ", "'TOTA'", "''", "DX", "SOURCE_EXTERNE ", "2132.0" "", "", "'TOTA'", "DY", "SOURCE_EXTERNE ", "1241.0" "", "", "'TOTA'", "DZ", "SOURCE_EXTERNE ", "564.6" "", ":math:`N100` ", "'PART_DYNA'", "DX", "AUTRE_ASTER ", "2116.8" "", "", "'PART_DYNA'", "DY", "AUTRE_ASTER ", "1228.5" "", "", "'PART_DYNA'", "DZ", "AUTRE_ASTER ", "546.9" "", ":math:`N100` ", "'PART_QS'", "DX", "AUTRE_ASTER ", "96.19" "", "", "'PART_QS'", "DY", "AUTRE_ASTER ", "103.0" "", "", "'PART_QS'", "DZ", "AUTRE_ASTER ", "272.8" Generalized constraints: .. csv-table:: "**ID**", "**cation**", "", "NOM_CAS "," ", "**NOM_CMP**", "**Reference type**", "**Reference**" "EFGE_ELNO "," :math:`M2` "," :math:`N300` ", "'TOTA', "''", "N", "SOURCE_EXTERNE ", "559.9" "", "", "", "'TOTA'", "''", "VY", "SOURCE_EXTERNE ", "430.8" "", "", "", "'TOTA'", "''", "VZ", "SOURCE_EXTERNE ", "914.9" "", "", "", "'TOTA'", "MT", "SOURCE_EXTERNE ", "932.5" "", "", "", "'TOTA'", "MFY "," "," SOURCE_EXTERNE ", "587.3" "", "", "", "'TOTA'", "'", "MFZ "," SOURCE_EXTERNE ", "620.4" "", ":math:`M2` "," :math:`N300` ", "'PART_DYNA'", "''", "N", "AUTRE_ASTER ", "542.5" "", "", "", "'PART_DYNA'", "''", "VY", "AUTRE_ASTER ", "430.6" "", "", "", "'PART_DYNA'", "''", "VZ", "AUTRE_ASTER ", "921.5" "", "", "", "'PART_DYNA'", "''", "MT", "AUTRE_ASTER ", "944.9" "", "", "", "'PART_DYNA'", "MFY "," "," AUTRE_ASTER ", "551.6" "", "", "", "'PART_DYNA'", "'", "MFZ "," AUTRE_ASTER ", "598.9" "", ":math:`M2` "," :math:`N300` ", "'PART_QS'", "''", "N", "AUTRE_ASTER ", "129.1" "", "", "", "'PART_QS'", "''", "VY", "AUTRE_ASTER ", "104.8" "", "", "", "'PART_QS'", "''", "VZ", "AUTRE_ASTER ", "96.9" "", "", "", "'PART_QS'", "''", "MT", "AUTRE_ASTER ", "0.6" "", "", "", "'PART_QS'", "'", "MFY "," AUTRE_ASTER ", "5.9" "", "", "", "'PART_QS'", "'", "MFZ "," AUTRE_ASTER ", "3.5" Single-press spectral response with correction of damping frequencies (calculation 3) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The correction of frequencies due to damping is taken into account (option CORR_FREQ to OUI in operator COMB_SISM_MODAL) Nodal Displacement and Reaction .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "DEPL "," :math:`N300` ", "DX", "SOURCE_EXTERNE "," ", "4.84710—3", "7,3E-3" "", "", "DY", "SOURCE_EXTERNE "," ", "2.19210—3", "3,5E-3" "", ":math:`N700` ", "DX", "SOURCE_EXTERNE "," ", "3.5810", "4.4E-3" "", "", "DY", "SOURCE_EXTERNE "," ", "2.91410—3", "3,5E-3" "", "", "DRY "," SOURCE_EXTERNE "," ", "1.43610-3", "1,0E-2" "", ":math:`N100` ", "DX", "SOURCE_EXTERNE ", "2132. ", "8,0E-3" "", "", "DY", "SOURCE_EXTERNE ", "1241. ", "1,0E-2" "", "", "DZ", "SOURCE_EXTERNE "," ", "564.6", "3,5E-2" "", ":math:`N1500` "," DRX "," SOURCE_EXTERNE "," ", "170.8", "2,5E-2" "", "", "DRY "," SOURCE_EXTERNE "," ", "1668", "1,5E-2" "", "", "DRZ "," SOURCE_EXTERNE "," ", "4903.0", "8,1E-3" .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "REAC_NODA "," :math:`N100` ", "N", "SOURCE_EXTERNE "," ", "564.6", "3,5E-3" "", "", "VY", "SOURCE_EXTERNE "," ", "1241.0", "1.0e-2" "", "", "VZ", "SOURCE_EXTERNE "," ", "2132.0", "1,0e-2" "", ":math:`N200` ", "MT", "SOURCE_EXTERNE "," ", "936.2", "1,4e-2" "", "", "MFY "," SOURCE_EXTERNE "," ", "1857.0", "1,4e-2" "", "", "MFZ "," SOURCE_EXTERNE "," ", "759.6", "7,6e-3" "", ":math:`N1000` ", "N", "SOURCE_EXTERNE "," ", "2454.0", "1,7e-2" "", "", "VY", "SOURCE_EXTERNE "," ", "1997.0", "1,4e-2" "", "", "VZ", "SOURCE_EXTERNE "," ", "505.0", "2,8e-2" "", ":math:`N1100` ", "MT", "SOURCE_EXTERNE "," ", "170.6", "0.23" "", "", "MFY "," SOURCE_EXTERNE "," ", "925.1", "1,2e-3" "", "", "MFZ "," SOURCE_EXTERNE "," ", "2151.0", "2,5e-3" .. _RefNumPara__3543_3484103119: Spectral response in correlated multi-support (calculation 4) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The command COMB_SISM_MODAL is then tested in multi-press mode with three-dimensional excitation by duplicating the previous single-press calculation. These are computer tests. The first calculation validates the correlated multi-support calculation. The same excitations are imposed on the two supports in order to comply with the single-support calculation. Nodal Displacement and Reaction .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "DEPL "," :math:`N300` ", "DX", "SOURCE_EXTERNE "," ", "4.84710—3", "7, 5E-3" "", "", "DY", "SOURCE_EXTERNE "," ", "2.19210—3", "4,1-3" "", ":math:`N700` ", "DX", "SOURCE_EXTERNE "," ", "3.58810", "4, 8E-3" "", "", "DY", "SOURCE_EXTERNE "," ", "2.91410—3", "3, 7E-3" "", "", "DRY "," SOURCE_EXTERNE "," ", "1.43610", "1, 1E-2" "REAC_NODA "," :math:`N100` ", "DX", "SOURCE_EXTERNE ", "2132. ", "2,0E-3" "", "", "DY", "SOURCE_EXTERNE ", "1241. ", "2,0E-3" "", "", "DZ", "SOURCE_EXTERNE "," ", "564.6", "3, 0E-2" "", ":math:`N1500` "," DRX "," SOURCE_EXTERNE "," ", "170.8", "3, 1E-2" "", "", "DRY "," SOURCE_EXTERNE "," ", "1668", "5,0E-2" "", "", "DRZ "," SOURCE_EXTERNE "," ", "4903.0", "8, 6E-3" .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "effort", ":math:`N100` ", "N", "SOURCE_EXTERNE "," ", "564.6", "3,0e-2" "", "", "VY", "SOURCE_EXTERNE "," ", "1241.0", "2,0e-3" "", "", "VZ", "SOURCE_EXTERNE "," ", "2132.0", "2,0e-3" "", ":math:`N200` ", "MT", "SOURCE_EXTERNE "," ", "936.2", "1,4e-2" "", "", "MFY "," SOURCE_EXTERNE "," ", "1857.0", "1,7e-2" "", "", "MFZ "," SOURCE_EXTERNE "," ", "759.6", "1,4e-2" "", ":math:`N1000` ", "N", "SOURCE_EXTERNE "," ", "2454.0", "2, e-2" "", "", "VY", "SOURCE_EXTERNE "," ", "1997.0", "1,2e-2" "", "", "VZ", "SOURCE_EXTERNE "," ", "505.0", "8,0e-2" "", ":math:`N1100` ", "MT", "SOURCE_EXTERNE "," ", "170.6", "0.24" "", "", "MFY "," SOURCE_EXTERNE "," ", "925.1", "1,0e-2" "", "", "MFZ "," SOURCE_EXTERNE "," ", "2151.0", "3,0e-3" Spectral response in multi-support correlated with static correction (calculation 5) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Same as § :ref:`3.4.4 `, but taking into account static correction and removing contributions from the last two modes. We test the total (NOM_CAS =' TOTA '), dynamic (NOM_CAS =' PART_DYNA'), which must correspond to the contribution of the first 7 modes without static correction, and static (NOM_CAS =' PART_QS ') components, which must correspond to the quadratic difference between the total and dynamic components. Travel: .. csv-table:: "**ID**", "**cation**", "NOM_CAS "", "", "**NOM_CMP**", "**Reference type**", "**Reference**" "DEPL "," :math:`N300` ", "'TOTA'", "''", "DX", "SOURCE_EXTERNE ", "4.847E-03" "", "", "'TOTA'", "DY", "SOURCE_EXTERNE ", "2.192E-03", "" "", ":math:`N300` ", "'PART_DYNA'", "DX", "AUTRE_ASTER ", "4.8864E-03" "", "", "'PART_DYNA'", "DY", "AUTRE_ASTER ", "2.2044E-03", "2.2044E-03" "", ":math:`N300` ", "'PART_QS'", "DX", "AUTRE_ASTER ", "8.2005E-07" "", "", "'PART_QS'", "DY", "AUTRE_ASTER ", "5.8645E-07" Nodal reactions: .. csv-table:: "**ID**", "**cation**", "NOM_CAS "", "", "**NOM_CMP**", "**Reference type**", "**Reference**" "REAC_NODA "," :math:`N100` ", "'TOTA'", "''", "DX", "SOURCE_EXTERNE ", "2132.0" "", "", "'TOTA'", "DY", "SOURCE_EXTERNE ", "1241.0" "", "", "'TOTA'", "DZ", "SOURCE_EXTERNE ", "564.6" "", ":math:`N100` ", "'PART_DYNA'", "DX", "AUTRE_ASTER ", "2139.9" "", "", "'PART_DYNA'", "DY", "AUTRE_ASTER ", "1248.6" "", "", "'PART_DYNA'", "DZ", "AUTRE_ASTER ", "581.7" "", ":math:`N100` ", "'PART_QS'", "DX", "AUTRE_ASTER ", "6.21" "", "", "'PART_QS'", "DY", "AUTRE_ASTER ", "6.75" "", "", "'PART_QS'", "DZ", "AUTRE_ASTER ", "224.6" Generalized constraints: .. csv-table:: "**ID**", "**cation**", "", "NOM_CAS "," ", "**NOM_CMP**", "**Reference type**", "**Reference**" "EFGE_ELNO "," :math:`M1` "," :math:`N100` ", "'TOTA', "''", "N", "ANALYTIQUE ", "564.6" "", "", "", "'TOTA'", "''", "VY", "ANALYTIQUE ", "1241.0" "", "", "", "'TOTA'", "''", "VZ", "ANALYTIQUE ", "2132.0" "", ":math:`M1` "," :math:`N100` ", "'PART_DYNA'", "''", "N", "AUTRE_ASTER ", "581.7" "", "", "", "'PART_DYNA'", "VY", "AUTRE_ASTER ", "1248.6" "", "", "", "'PART_DYNA'", "''", "VZ", "AUTRE_ASTER ", "2139.9" "", ":math:`M1` "," :math:`N100` ", "'PART_QS'", "''", "N", "AUTRE_ASTER ", "224.6" "", "", "", "'PART_QS'", "''", "VY", "AUTRE_ASTER ", "6.74" "", "", "", "'PART_QS'", "''", "VZ", "AUTRE_ASTER ", "6.21" .. _RefNumPara__3548_3484103119: Spectral response in uncorrelated multi-support (calculation 6) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The multi-direction uncorrelated multi-support calculation is validated. It should be noted that putting the same excitement to the different supports is not a good practice in uncorrelated multi-support, but the aim of this test is only to verify that things work computationally. It is a non-regression test. Nodal Displacement and Reaction .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "DEPL "," :math:`N300` ", "DX", "NON_REGRESSION ", "-", "-" "", "", "DY", "NON_REGRESSION ", "-", "-" "", ":math:`N700` ", "DX", "NON_REGRESSION "," ", "-" "", "", "DY", "NON_REGRESSION ", "-", "-" "", "", "DRY "," NON_REGRESSION "," ", "-" "REAC_NODA "," :math:`N100` ", "DX", "NON_REGRESSION ", "-", "-" "", "", "DY", "NON_REGRESSION ", "-", "-" "", "", "DZ", "NON_REGRESSION "," ", "", "-" "", ":math:`N1500` "," DRX "," NON_REGRESSION "," ", "-", "-" "", "", "DRY "," NON_REGRESSION "," ", "-" "", "", "DRZ "," NON_REGRESSION "," ", "-" .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "effort", ":math:`N100` ", "N", "NON_REGRESSION "," ", "-" "", "", "VY", "NON_REGRESSION "," ", "", "-" "", "", "VZ", "NON_REGRESSION "," ", "", "-" "", ":math:`N200` ", "MT", "NON_REGRESSION "," ", "-" "", "", "MFY "," NON_REGRESSION "," ", "-" "", "", "MFZ "," NON_REGRESSION "," ", "-" "", ":math:`N1000` ", "N", "NON_REGRESSION "," ", "-" "", "", "VY", "NON_REGRESSION "," ", "", "-" "", "", "VZ", "NON_REGRESSION "," ", "", "-" "", ":math:`N1100` ", "MT", "NON_REGRESSION "," ", "-" "", "", "MFY "," NON_REGRESSION "," ", "-" "", "", "MFZ "," NON_REGRESSION "," ", "-" **Calculation 8:** Nodal Displacement and Reaction .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "DEPL "," :math:`N300` ", "DX", "NON_REGRESSION ", "-", "-" "", "", "DY", "NON_REGRESSION ", "-", "-" "", ":math:`N700` ", "DX", "NON_REGRESSION "," ", "-" "", "", "DY", "NON_REGRESSION ", "-", "-" "", "", "DRY "," NON_REGRESSION "," ", "-" "REAC_NODA "," :math:`N100` ", "DX", "NON_REGRESSION ", "-", "-" "", "", "DY", "NON_REGRESSION ", "-", "-" "", "", "DZ", "NON_REGRESSION "," ", "", "-" "", ":math:`N1500` "," DRX "," NON_REGRESSION "," ", "-", "-" "", "", "DRY "," NON_REGRESSION "," ", "-" "", "", "DRZ "," NON_REGRESSION "," ", "-" .. csv-table:: "**Identifier**", "**cation**", "", "**Reference type**", "**Reference**", "**Tolerance**" "effort", ":math:`N100` ", "N", "NON_REGRESSION "," ", "-" "", "", "VY", "NON_REGRESSION "," ", "", "-" "", "", "VZ", "NON_REGRESSION "," ", "", "-" "", ":math:`N200` ", "MT", "NON_REGRESSION "," ", "-" "", "", "MFY "," NON_REGRESSION "," ", "-" "", "", "MFZ "," NON_REGRESSION "," ", "-" "", ":math:`N1000` ", "N", "NON_REGRESSION "," ", "-" "", "", "VY", "NON_REGRESSION "," ", "", "-" "", "", "VZ", "NON_REGRESSION "," ", "", "-" "", ":math:`N1100` ", "MT", "NON_REGRESSION "," ", "-" "", "", "MFY "," NON_REGRESSION "," ", "-" "", "", "MFZ "," NON_REGRESSION "," ", "-" Spectral response in uncorrelated multi-support with static correction (calculation 7) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Same as § :ref:`3.4.6 `, but taking into account static correction and removing contributions from the last two modes. We test the total (NOM_CAS =' TOTA '), dynamic (NOM_CAS =' PART_DYNA'), which must correspond to the contribution of the first 7 modes without static correction, and static (NOM_CAS =' PART_QS ') components, which must correspond to the quadratic difference between the total and dynamic components. Travel: .. csv-table:: "**ID**", "**cation**", "NOM_CAS "", "", "**NOM_CMP**", "**Reference type**", "**Reference**" "DEPL "," :math:`N300` ", "'TOTA'", "''", "DX", "NON_REGRESSION ", "3.529E-03" "", "", "'TOTA'", "DY", "NON_REGRESSION ", "1.625E-03", "" "", ":math:`N300` ", "'PART_DYNA'", "DX", "AUTRE_ASTER ", "3.529E-03" "", "", "'PART_DYNA'", "DY", "AUTRE_ASTER ", "1.625E-03", "" "", ":math:`N300` ", "'PART_QS'", "DX", "AUTRE_ASTER ", "1.138E-06" "", "", "'PART_QS'", "DY", "AUTRE_ASTER ", "7.232E-07" Nodal reactions: .. csv-table:: "**ID**", "**cation**", "NOM_CAS "", "", "**NOM_CMP**", "**Reference type**", "**Reference**" "REAC_NODA "," :math:`N100` ", "'TOTA'", "''", "DX", "NON_REGRESSION ", "1565.8" "", "", "'TOTA'", "DY", "NON_REGRESSION ", "950.5" "", "", "'TOTA'", "DZ", "NON_REGRESSION ", "501.5" "", ":math:`N100` ", "'PART_DYNA'", "DX", "AUTRE_ASTER ", "1565.8" "", "", "'PART_DYNA'", "DY", "AUTRE_ASTER ", "950.4" "", "", "'PART_DYNA'", "DZ", "AUTRE_ASTER ", "450.9" "", ":math:`N100` ", "'PART_QS'", "DX", "AUTRE_ASTER ", "11.14" "", "", "'PART_QS'", "DY", "AUTRE_ASTER ", "7.18" "", "", "'PART_QS'", "DZ", "AUTRE_ASTER ", "219.5" Generalized constraints: .. csv-table:: "**ID**", "**cation**", "", "NOM_CAS "," ", "**NOM_CMP**", "**Reference type**", "**Reference**" "EFGE_ELNO "," :math:`M1` "," :math:`N100` ", "'TOTA', "''", "N", "NON_REGRESSION ", "501.5" "", "", "", "'TOTA'", "''", "VY", "NON_REGRESSION ", "950.5" "", "", "", "'TOTA'", "''", "VZ", "NON_REGRESSION ", "1565.8" "", ":math:`M1` "," :math:`N100` ", "'PART_DYNA'", "''", "N", "AUTRE_ASTER ", "450.9" "", "", "", "'PART_DYNA'", "''", "VY", "AUTRE_ASTER ", "950.4" "", "", "", "'PART_DYNA'", "''", "VZ", "AUTRE_ASTER ", "1565.8" "", ":math:`M1` "," :math:`N100` ", "'PART_QS'", "''", "N", "AUTRE_ASTER ", "219.5" "", "", "", "'PART_QS'", "VY", "AUTRE_ASTER ", "7.18" "", "", "", "'PART_QS'", "''", "VZ", "AUTRE_ASTER ", "11.14" notes --------- Spectrum values (interpolation). .. csv-table:: "**Mode**", "**1, 2, 3**", "**4**", "**4**", "**5**", "**7**", "**7**", "**8, 9**" "Next acceleration :math:`x` and :math:`y` ", "19.620", "8.06148", "8.06148", "6.72586", "3.38994", "3.04168", "1.9620" "Next acceleration :math:`z` ", "9.810", "4.03074", "4.03074", "3.36293", "1.69497", "1.52084", "0.9810", "0.9810"