DEBUT(); # LECTURE DES PARAMETRES # # LECTURE DES TEMPS #CYCLE 1 # LECTURE DU MAILLAGE ET DEFINITIONS DES PROPRIETES ELEMENTS FINIS PRE_GIBI(); # MA1=LIRE_MAILLAGE(); # MA1=DEFI_GROUP(reuse =MA1, CREA_GROUP_NO=_F(GROUP_MA=('FIXATI','APPUI','LIAS_1','LIAS_2','EBGUIDE','MAINTIEN','MAIN_SUP','EMBO_SUP','TUB_GUID', 'GRILLES','EMBO_INF','PIEDS','CRAYONS',),), MAILLAGE=MA1,); # # AFFECTATION DU MODELE # MO1=AFFE_MODELE(AFFE=(_F(GROUP_MA='CRAYONS', PHENOMENE='MECANIQUE', MODELISATION='POU_D_E',), _F(GROUP_MA='TUB_GUID', PHENOMENE='MECANIQUE', MODELISATION='POU_D_E',), _F(GROUP_MA=('EMBO_SUP','EMBO_INF',), PHENOMENE='MECANIQUE', MODELISATION='DKT',), _F(GROUP_MA='PIEDS', PHENOMENE='MECANIQUE', MODELISATION='POU_D_E',), _F(GROUP_MA='GRILLES', PHENOMENE='MECANIQUE', MODELISATION='POU_D_E',), _F(GROUP_MA='LI_GR_CR', PHENOMENE='MECANIQUE', MODELISATION='DIS_TR',), _F(GROUP_MA='LI_GR_GU', PHENOMENE='MECANIQUE', MODELISATION='DIS_TR',), _F(GROUP_MA='MAINTIEN', PHENOMENE='MECANIQUE', MODELISATION='POU_D_E',),), MAILLAGE=MA1,); # # AFFECTATION DES CARACTERISTIQUES GEOMETRIQUES ELEMENTAIRES # CARA1=AFFE_CARA_ELEM(MODELE=MO1, COQUE=(_F(ANGL_REP=90.0, GROUP_MA='EBOINF', EPAIS=2.0,), _F(ANGL_REP=90.0, GROUP_MA='EBOSUP', EPAIS=3.0,),), DISCRET=(_F(VALE=(1.0,2.0,3.0,4.0,5.0,6.0,), REPERE='LOCAL', CARA='K_TR_D_L', GROUP_MA='ELASTI',), _F(VALE=(1.0,2.0,3.0,4.0,5.0,6.0,), REPERE='LOCAL', CARA='K_TR_D_L', GROUP_MA='RIGID',),), ORIENTATION=(_F(VALE=(1.0,0.0,0.0,), CARA='VECT_Y', GROUP_MA=('GRIL_I','GRIL_E',),), _F(VALE=(0.0,1.0,0.0,), CARA='VECT_Y', GROUP_MA='MAINTI_Y',), _F(VALE=(0.0,0.0,1.0,), CARA='VECT_Y', GROUP_MA='MAINTI_Z',), _F(VALE=(0.0,1.0,0.0,), CARA='VECT_Y', GROUP_MA=('PI_PLE','PI_TRO',),), _F(VALE=(1.0,0.0,0.0,), CARA='VECT_Y', GROUP_MA=('ELASTI','RIGID',),),), POUTRE=(_F(SECTION='CERCLE', GROUP_MA='CRAY', VALE=(3.0,3.0,), CARA=('R','EP',),), _F(SECTION='CERCLE', GROUP_MA='GUID', VALE=(3.0,3.0,), CARA=('R','EP',),), _F(SECTION='CERCLE', GROUP_MA='RETRE', VALE=(3.0,3.0,), CARA=('R','EP',),), _F(SECTION='RECTANGLE', GROUP_MA='GRIL_I', VALE=(3.0,3.0,), CARA=('HY','HZ',),), _F(SECTION='RECTANGLE', GROUP_MA='GRIL_E', VALE=(3.0,3.0,), CARA=('HY','HZ',),), _F(SECTION='RECTANGLE', GROUP_MA=('MAINTI_Y','MAINTI_Z',), VALE=(3.0,3.0,), CARA=('HY','HZ',),), _F(SECTION='GENERALE', GROUP_MA='PI_PLE', VALE=(1.0,2.0,3.0,4.0,), CARA=('A','IZ','IY','JX',),), _F(SECTION='GENERALE', GROUP_MA='PI_TRO', VALE=(1.0,2.0,3.0,4.0,), CARA=('A','IZ','IY','JX',),),),); # # DEFINITION DES CHARGES ET CONDITIONS LIMITES # DEFINITION DES TEMPERATURES NODALES EVOLUTIVES # F_TP1_1=DEFI_FONCTION(NOM_RESU='TEMP', PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,1.0,5.0,4.0,), PROL_DROIT='CONSTANT',); F_TP2_1=DEFI_FONCTION(NOM_RESU='TEMP', PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,1.0,5.0,4.0,), PROL_DROIT='CONSTANT',); F_TP3_1=DEFI_FONCTION(NOM_RESU='TEMP', PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,1.0,5.0,4.0,), PROL_DROIT='CONSTANT',); CHTEM1_1=AFFE_CHAM_NO(GRANDEUR='TEMP_F', AFFE=(_F(FONCTION=F_TP1_1, GROUP_NO=('MAINTIEN','PIEDS','TUB_GUID','GRILLES','CRAYONS',), NOM_CMP='TEMP',), _F(FONCTION=(F_TP1_1,F_TP1_1,F_TP1_1,), GROUP_NO=('EMBO_SUP','EMBO_INF',), NOM_CMP=('TEMP_INF','TEMP','TEMP_SUP',),),), MAILLAGE=MA1,); CHTEM2_1=AFFE_CHAM_NO(GRANDEUR='TEMP_F', AFFE=(_F(FONCTION=F_TP2_1, GROUP_NO=('MAINTIEN','PIEDS','TUB_GUID','GRILLES','CRAYONS',), NOM_CMP='TEMP',), _F(FONCTION=(F_TP2_1,F_TP2_1,F_TP2_1,), GROUP_NO=('EMBO_SUP','EMBO_INF',), NOM_CMP=('TEMP_INF','TEMP','TEMP_SUP',),),), MAILLAGE=MA1,); CHTEM3_1=AFFE_CHAM_NO(GRANDEUR='TEMP_F', AFFE=(_F(FONCTION=F_TP3_1, GROUP_NO=('MAINTIEN','PIEDS','TUB_GUID','GRILLES',), NOM_CMP='TEMP',), _F(FONCTION=(F_TP3_1,F_TP3_1,F_TP3_1,), GROUP_NO=('EMBO_SUP','EMBO_INF',), NOM_CMP=('TEMP_INF','TEMP','TEMP_SUP',),), _F(FONCTION=F_TP3_1, GROUP_NO='CRAYONS', NOM_CMP='TEMP',),), MAILLAGE=MA1,); CHTH_1=CREA_RESU(NOM_CHAM='TEMP', CHAM_GD=(_F(INST=0.0, CHAM_NO=CHTEM1_1,), _F(INST=1000.0, CHAM_NO=CHTEM1_1,), _F(INST=2000.0, CHAM_NO=CHTEM2_1,), _F(INST=3000.0, CHAM_NO=CHTEM3_1,), _F(INST=4000.0, CHAM_NO=CHTEM3_1,), _F(INST=5000.0, CHAM_NO=CHTEM2_1,), _F(INST=6000.0, CHAM_NO=CHTEM1_1,), _F(INST=7000.0, CHAM_NO=CHTEM1_1,),), TYPE_RESU='EVOL_THER',); # CHARGEMENT: CHARGES THERMO-MECANIQUES # ---------------------------------------- THERM_1=AFFE_CHAR_MECA(MODELE=MO1, TEMP_CALCULEE=CHTH_1,); # DEFINITION DES CONDITIONS LIMITES # DES CONDITIONS DE CONTACT # # CHARGEMENT: PESANTEUR # PESANT_1=AFFE_CHAR_MECA(MODELE=MO1, PESANTEUR=(9.8100000000000005,-1.0,0.0,0.0,),); # # CONDITIONS AUX LIMITES # CL_PER_1=AFFE_CHAR_MECA(MODELE=MO1, DDL_IMPO=(_F(DZ=0.0, DX=0.0, DY=0.0, GROUP_NO='FIXATI', DRZ=0.0, DRX=0.0, DRY=0.0,), _F(DX=0.0, GROUP_NO='APPUI',), _F(DZ=0.0, DY=0.0, GROUP_NO='EBGUIDE', DRZ=0.0, DRX=0.0, DRY=0.0,), _F(GROUP_NO=('LIAS_1','LIAS_2',), DRX=0.0,),), LIAISON_GROUP=(_F(COEF_MULT_1=1.0, DDL_1='DX', COEF_MULT_2=-1.0, COEF_IMPO=0.0, GROUP_NO_1='LIAS_1', GROUP_NO_2='LIAS_2', DDL_2='DX',), _F(COEF_MULT_1=1.0, DDL_1='DY', COEF_MULT_2=-1.0, COEF_IMPO=0.0, GROUP_NO_1='LIAS_1', GROUP_NO_2='LIAS_2', DDL_2='DY',), _F(COEF_MULT_1=1.0, DDL_1='DZ', COEF_MULT_2=-1.0, COEF_IMPO=0.0, GROUP_NO_1='LIAS_1', GROUP_NO_2='LIAS_2', DDL_2='DZ',), _F(COEF_MULT_1=1.0, DDL_1='DRY', COEF_MULT_2=-1.0, COEF_IMPO=0.0, GROUP_NO_1='LIAS_1', GROUP_NO_2='LIAS_2', DDL_2='DRY',), _F(COEF_MULT_1=1.0, DDL_1='DRZ', COEF_MULT_2=-1.0, COEF_IMPO=0.0, GROUP_NO_1='LIAS_1', GROUP_NO_2='LIAS_2', DDL_2='DRZ',),),); # CL_CTC=AFFE_CHAR_MECA(INFO=1, MODELE=MO1, CONTACT=_F(GROUP_MA_1='EBOINF', VECT_NORM_2=(-1.0,0.0,0.0,), APPARIEMENT='NODAL', GROUP_MA_2='MCRBAS',),); # # DEPLACEMENT DU SYSTEME DE MAINTIEN # CLDI_F1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE= (0.0,0.0,1000.0,0.10000000000000001,2000.0,0.20000000000000001,3000.0, 0.20000000000000001,4000.0,0.20000000000000001,5000.0,0.20000000000000001,6000.0, 0.10000000000000001,7000.0,0.10000000000000001,), PROL_DROIT='CONSTANT',); CL_DI_1=AFFE_CHAR_MECA(MODELE=MO1, DDL_IMPO=_F(DX=-1.0, GROUP_NO='MAIN_SUP',),); # DEFINITION DES FORCES EXTERIEURES # # FONCTION MULTIPLICATIVE DE LA FORCE HYDRODYNAMIQUE NORMEE # HYDR_F1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE= (0.0,0.0,1000.0,0.10000000000000001,2000.0,0.20000000000000001,3000.0, 0.20000000000000001,4000.0,0.20000000000000001,5000.0,0.20000000000000001,6000.0, 0.10000000000000001,7000.0,0.10000000000000001,), PROL_DROIT='CONSTANT',); # # PROFIL DES FORCES HYDRODYNAMIQUES TUBES GUIDES A FROID # HYFRTU_1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); # # PROFIL DES FORCES HYDRODYNAMIQUES CRAYON A FROID # HYFRCR_1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); # # CHARGEMENT : FORCES HYDRODYNAMIQUES # HYDR_1=AFFE_CHAR_MECA(FORCE_POUTRE=(_F(GROUP_MA='GRIL10', FX=10.0,), _F(GROUP_MA='GRIL1', FX=10.0,), _F(GROUP_MA='GRIL2', FX=10.0,), _F(GROUP_MA='GRIL3', FX=10.0,), _F(GROUP_MA='GRIL4', FX=10.0,), _F(GROUP_MA='GRIL5', FX=10.0,), _F(GROUP_MA='GRIL6', FX=10.0,), _F(GROUP_MA='GRIL7', FX=10.0,), _F(GROUP_MA='GRIL8', FX=10.0,), _F(GROUP_MA='GRIL9', FX=10.0,),), MODELE=MO1, FORCE_COQUE=(_F(FX=10.0, GROUP_MA='EBOSUP',), _F(FX=10.0, GROUP_MA='EBOINF',),),); TOTO_1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,10.0,5.0,10.0,), PROL_DROIT='CONSTANT',); # FOHYDR_1=AFFE_CHAR_MECA_F(FORCE_POUTRE=(_F(GROUP_MA='GUID', FX=TOTO_1,), _F(GROUP_MA='CRAY', FX=TOTO_1,),), MODELE=MO1,); # # PROFIL DES FORCES D'ARCHIMEDE TUBE GUIDE # ARFRTU_1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,10.0,5.0,10.0,), PROL_DROIT='CONSTANT',); # # PROFIL DES FORCES D'ARCHIMEDE CRAYON # ARFRCR_1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='X', VALE=(0.0,10.0,5.0,10.0,), PROL_DROIT='CONSTANT',); # # FONCTION MULTIPLICATIVE DE LA FORCE D'ARCHIMEDE # ARCH_F1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE= (0.0,0.0,1000.0,0.10000000000000001,2000.0,0.20000000000000001,3000.0, 0.20000000000000001,4000.0,0.20000000000000001,5000.0,0.20000000000000001,6000.0, 0.10000000000000001,7000.0,0.10000000000000001,), PROL_DROIT='CONSTANT',); # # # CHARGEMENT : FORCES D'ARCHIMEDE # ---------------------------------------- # ARCH_1=AFFE_CHAR_MECA(FORCE_POUTRE=(_F(GROUP_MA='MAINTIEN', FX=10.0,), _F(GROUP_MA='GRIL10', FX=10.0,), _F(GROUP_MA='GRIL1', FX=10.0,), _F(GROUP_MA='GRIL2', FX=10.0,), _F(GROUP_MA='GRIL3', FX=10.0,), _F(GROUP_MA='GRIL4', FX=10.0,), _F(GROUP_MA='GRIL5', FX=10.0,), _F(GROUP_MA='GRIL6', FX=10.0,), _F(GROUP_MA='GRIL7', FX=10.0,), _F(GROUP_MA='GRIL8', FX=10.0,), _F(GROUP_MA='GRIL9', FX=10.0,),), MODELE=MO1, FORCE_COQUE=(_F(FX=10.0, GROUP_MA='EBOSUP',), _F(FX=10.0, GROUP_MA='EBOINF',),),); FOARCH_1=AFFE_CHAR_MECA_F(FORCE_POUTRE=(_F(GROUP_MA='GUID', FX=ARCH_F1,), _F(GROUP_MA='CRAY', FX=ARCH_F1,),), MODELE=MO1,); # # # FORCE DE SERRAGE DE LA LIAISON GRILLE - CRAYON # # # # # # DEFINITION DE LA LISTE D'INSTANTS # L_FRIG=DEFI_LIST_REEL(INTERVALLE=_F(JUSQU_A=1000.0, NOMBRE=100,), DEBUT=0.0,); # # INRTERPRETATION DES FONCTIONS # F1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F2=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F3=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F4=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F5=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F6=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F7=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F8=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F9=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); F10=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE=(0.0,0.0,43200.0,0.0,), PROL_DROIT='CONSTANT',); FRIG1=CALC_FONC_INTERP(FONCTION=F1, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG2=CALC_FONC_INTERP(FONCTION=F2, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG3=CALC_FONC_INTERP(FONCTION=F3, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG4=CALC_FONC_INTERP(FONCTION=F4, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG5=CALC_FONC_INTERP(FONCTION=F5, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG6=CALC_FONC_INTERP(FONCTION=F6, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG7=CALC_FONC_INTERP(FONCTION=F7, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG8=CALC_FONC_INTERP(FONCTION=F8, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG9=CALC_FONC_INTERP(FONCTION=F9, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); FRIG10=CALC_FONC_INTERP(FONCTION=F10, PROL_DROIT='CONSTANT', INTERPOL='LIN', PROL_GAUCHE='CONSTANT', LIST_PARA=L_FRIG,); # # DEFINITION DU FLUX NEUTRONIQUE RADIAL FLUX_F1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='INST', VALE= (0.0,0.0,43200.0,0.0,974520.0,453280.0,2638800.0,2077850.0,4087800.0,3512790.0, 5428440.0,4856770.0,7245000.0,6676270.0,8853480.0,8279770.0,10460900.0,9872610.0,12202900.0, 11586900.0,13944600.0,13295200.0,14143700.0,13490200.0,15563200.0,14875300.0,17236100.0, 16506900.0,17948200.0,17199200.0,18190100.0,17433400.0,18193700.0,17435200.0,18197300.0, 17435200.0,18200900.0,17435200.0,), PROL_DROIT='CONSTANT',); # DEFINITION DU FLUX AXIAL POUR LE CYCLE 1 FLUXAX1=LIRE_FONCTION(PROL_GAUCHE='CONSTANT', UNITE=60, PROL_DROIT='CONSTANT',); FLY_1_1=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,3.8032834757835002e-07,-0.088200000000000001,3.8083689458688999e-07, -0.075600000000000001,3.8296082621083001e-07,-0.063,3.858400997151e-07,-0.0504, 3.8946100427349999e-07,-0.0378,3.9259455128205e-07,-0.0252,3.9258457977207998e-07,-0.0126, 3.9294106125356001e-07,0.0,3.9399554843304999e-07,0.0126,3.9293233618234e-07,0.0252, 3.9256712962963002e-07,0.0378,3.9256712962963002e-07,0.0504,3.8942610398860001e-07,0.063, 3.8579522792023001e-07,0.075600000000000001,3.8290972222222002e-07,0.088200000000000001, 3.8077706552707e-07,0.1008,3.8026103988603998e-07,), PROL_DROIT='CONSTANT',); FLY_1_2=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,4.3595566239316001e-07,-0.088200000000000001,4.3866542022792e-07, -0.075600000000000001,4.4331463675214e-07,-0.063,4.4911556267806002e-07,-0.0504, 4.5750658831909e-07,-0.0378,4.6647222222221997e-07,-0.0252,4.6002938034188002e-07,-0.0126, 4.6004309116809001e-07,0.0,4.6686235754985997e-07,0.0126,4.6003311965811999e-07,0.0252, 4.6000943732193999e-07,0.0378,4.6643981481481001e-07,0.0504,4.5746420940171002e-07,0.063, 4.4906445868945999e-07,0.075600000000000001,4.4325356125356e-07,0.088200000000000001, 4.3859686609687001e-07,0.1008,4.3587838319088001e-07,), PROL_DROIT='CONSTANT',); FLY_1_3=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,4.9431891025640996e-07,-0.088200000000000001,5.0005128205127998e-07, -0.075600000000000001,5.1337197293447004e-07,-0.063,5.2915313390313001e-07,-0.0504, 5.3788069800570004e-07,-0.0378,5.3504629629630004e-07,-0.0252,5.3221189458688998e-07,-0.0126, 5.3136431623932e-07,0.0,5.3135870726495999e-07,0.0126,5.3135309829059998e-07,0.0252, 5.3218696581197002e-07,0.0378,5.3500827991452996e-07,0.0504,5.3782959401709e-07,0.063, 5.2909205840456002e-07,0.075600000000000001,5.1330217236466999e-07,0.088200000000000001, 4.9997150997151001e-07,0.1008,4.9423165954416005e-07,), PROL_DROIT='CONSTANT',); FLY_1_4=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,5.5489957264956999e-07,-0.088200000000000001,5.6477884615384998e-07, -0.075600000000000001,5.9007781339030998e-07,-0.063,5.9726415598291003e-07,-0.0504, 6.0445049857550001e-07,-0.0378,5.9840776353275996e-07,-0.0252,5.8440651709402002e-07,-0.0126, 5.8263906695157003e-07,0.0,5.9153240740741004e-07,0.0126,5.8262660256409999e-07,0.0252, 5.8438034188033999e-07,0.0378,5.9836663105413e-07,0.0504,6.0439316239316004e-07,0.063, 5.9719497863248e-07,0.075600000000000001,5.8999679487179001e-07,0.088200000000000001, 5.6469159544159996e-07,0.1008,5.5480110398860005e-07,), PROL_DROIT='CONSTANT',); FLY_1_5=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,6.1267200854701004e-07,-0.088200000000000001,6.2962357549858005e-07, -0.075600000000000001,6.5655413105413e-07,-0.063,6.6164583333332999e-07,-0.0504, 6.5190242165241998e-07,-0.0378,6.5212678062678005e-07,-0.0252,6.3746616809116999e-07,-0.0126, 6.3547435897436004e-07,0.0,6.4509686609687001e-07,0.0126,6.3546064814814995e-07,0.0252, 6.3743625356125e-07,0.0378,6.5207941595442004e-07,0.0504,6.5183885327634997e-07,0.063, 6.6156980056979999e-07,0.075600000000000001,6.5646563390312997e-07,0.088200000000000001, 6.2952386039885999e-07,0.1008,6.1256356837606998e-07,), PROL_DROIT='CONSTANT',); FLY_1_6=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,6.5755128205127996e-07,-0.088200000000000001,6.8336253561253996e-07, -0.075600000000000001,6.9012072649573003e-07,-0.063,6.9687891737892e-07,-0.0504, 6.9362571225071001e-07,-0.0378,6.9074768518518997e-07,-0.0252,6.8786965811965998e-07,-0.0126, 6.8586413817664004e-07,0.0,6.8585603632478996e-07,0.0126,6.8584793447293003e-07,0.0252, 6.8783600427350001e-07,0.0378,6.9069720441594996e-07,0.0504,6.9355840455840002e-07,0.063, 6.9679789886040002e-07,0.075600000000000001,6.9002412749288002e-07,0.088200000000000001, 6.8325035612536003e-07,0.1008,6.5743162393161998e-07,), PROL_DROIT='CONSTANT',); FLY_1_7=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,6.9684526353276003e-07,-0.088200000000000001,7.1406606125356005e-07, -0.075600000000000001,7.3236502849003e-07,-0.063,7.2076442307691997e-07,-0.0504, 7.1793500712250995e-07,-0.0378,7.2835648148147998e-07,-0.0252,7.1444747150996998e-07,-0.0126, 7.1130893874644005e-07,0.0,7.2107727920227996e-07,0.0126,7.1129398148148005e-07,0.0252, 7.1441257122506995e-07,0.0378,7.2830288461537998e-07,0.0504,7.1786396011395999e-07,0.063, 7.2067841880341996e-07,0.075600000000000001,7.3226157407406997e-07,0.088200000000000001, 7.1395138888889005e-07,0.1008,6.9671812678063005e-07,), PROL_DROIT='CONSTANT',); FLY_1_8=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,7.3679362535612996e-07,-0.088200000000000001,7.5423130341880005e-07, -0.075600000000000001,7.7215633903134002e-07,-0.063,7.5865740740741005e-07,-0.0504, 7.5547774216523998e-07,-0.0378,7.6662464387464e-07,-0.0252,7.5088461538461995e-07,-0.0126, 7.4313924501423998e-07,0.0,7.486323005698e-07,0.0126,7.4312054843304996e-07,0.0252, 7.5084722222222e-07,0.0378,7.6656730769230998e-07,0.0504,7.5540170940170999e-07,0.063, 7.5856267806267997e-07,0.075600000000000001,7.7204415954415998e-07,0.088200000000000001, 7.5410790598291005e-07,0.1008,7.3665776353275997e-07,), PROL_DROIT='CONSTANT',); FLY_1_9=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,7.7370940170939995e-07,-0.088200000000000001,8.0144764957264998e-07, -0.075600000000000001,8.0374358974358997e-07,-0.063,8.0603952991452995e-07,-0.0504, 8.0238372507123005e-07,-0.0378,7.9936672008546997e-07,-0.0252,7.9634971509971995e-07,-0.0126, 7.8317361111111004e-07,0.0,7.8316426282051005e-07,0.0126,7.8315491452990996e-07,0.0252, 7.9631107549857995e-07,0.0378,7.9930689102564003e-07,0.0504,8.0230270655270996e-07,0.063, 8.0593856837607005e-07,0.075600000000000001,8.0362580128205003e-07,0.088200000000000001, 8.0131303418803e-07,0.1008,7.7356356837607e-07,), PROL_DROIT='CONSTANT',); FLY_1_10=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,7.9424198717948999e-07,-0.088200000000000001,8.1225925925926001e-07, -0.075600000000000001,8.3075516381766e-07,-0.063,8.1540651709402001e-07,-0.0504, 8.1131071937321997e-07,-0.0378,8.2297489316238996e-07,-0.0252,8.0577403846154003e-07,-0.0126, 7.9717236467236002e-07,0.0,8.0284615384615001e-07,0.0126,7.9715117521368004e-07,0.0252, 8.0573165954416005e-07,0.0378,8.2291257122506995e-07,0.0504,8.1122845441594998e-07,0.063, 8.1530306267805998e-07,0.075600000000000001,8.3063051994301999e-07,0.088200000000000001, 8.1211841168090999e-07,0.1008,7.9408742877492998e-07,), PROL_DROIT='CONSTANT',); FLY_1_11=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.1647845441594995e-07,-0.088200000000000001,8.3510648148147996e-07, -0.075600000000000001,8.5487873931623998e-07,-0.063,8.3969088319087998e-07,-0.0504, 8.3502920227919995e-07,-0.0378,8.4651014957265e-07,-0.0252,8.2973931623932002e-07,-0.0126, 8.2549269943020005e-07,0.0,8.3637909544160002e-07,0.0126,8.2547275641026002e-07,0.0252, 8.2969319800569997e-07,0.0378,8.4644408831909002e-07,0.0504,8.3493945868945997e-07,0.063, 8.3957995014244996e-07,0.075600000000000001,8.5474786324785998e-07,0.088200000000000001, 8.3495690883191003e-07,0.1008,8.1631641737892005e-07,), PROL_DROIT='CONSTANT',); FLY_1_12=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.3948272792023003e-07,-0.088200000000000001,8.7002546296295996e-07, -0.075600000000000001,8.7608564814814997e-07,-0.063,8.8214583333333004e-07,-0.0504, 8.7589245014244996e-07,-0.0378,8.7128872863248004e-07,-0.0252,8.6668500712251001e-07,-0.0126, 8.6321616809117001e-07,0.0,8.6320432692307996e-07,0.0126,8.6319248575499001e-07,0.0252, 8.6663764245014005e-07,0.0378,8.7121705840456005e-07,0.0504,8.7579647435896998e-07,0.063, 8.8202617521368001e-07,0.075600000000000001,8.7594667022791999e-07,0.088200000000000001, 8.6986716524217003e-07,0.1008,8.3931196581196996e-07,), PROL_DROIT='CONSTANT',); FLY_1_13=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.5508315527066002e-07,-0.088200000000000001,8.7546616809116998e-07, -0.075600000000000001,9.0944533475783005e-07,-0.063,9.1292663817663998e-07,-0.0504, 8.9653721509972004e-07,-0.0378,8.9547275641025999e-07,-0.0252,8.7405644586895003e-07,-0.0126, 8.7004789886040001e-07,0.0,8.8226549145299002e-07,0.0126,8.7002546296295996e-07,0.0252, 8.7400534188033999e-07,0.0378,8.9539672364672004e-07,0.0504,8.9643376068376001e-07,0.063, 9.1279825498575999e-07,0.075600000000000001,9.0929576210826002e-07,0.088200000000000001, 8.7530288461538001e-07,0.1008,8.5490491452990995e-07,), PROL_DROIT='CONSTANT',); FLY_1_14=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.5798237179486999e-07,-0.088200000000000001,8.6880893874644002e-07, -0.075600000000000001,9.0299750712251001e-07,-0.063,9.0948646723646997e-07,-0.0504, 9.1597542735043003e-07,-0.0378,9.0500302706552995e-07,-0.0252,8.8214084757835001e-07,-0.0126, 8.7779825498574995e-07,0.0,8.8993732193732e-07,0.0126,8.7777207977207998e-07,0.0252, 8.8208974358973997e-07,0.0378,9.0492325498575998e-07,0.0504,9.1586574074073996e-07,0.063, 9.0935434472933995e-07,0.075600000000000001,9.0284294871795e-07,0.088200000000000001, 8.6864066951567002e-07,0.1008,8.5779665242165003e-07,), PROL_DROIT='CONSTANT',); FLY_1_15=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.5773557692308004e-07,-0.088200000000000001,8.6180893874644003e-07, -0.075600000000000001,8.7862838319088002e-07,-0.063,8.9924074074074004e-07,-0.0504, 9.0872489316239005e-07,-0.0378,9.0174545940170996e-07,-0.0252,8.9476602564102997e-07,-0.0126, 8.9122364672365005e-07,0.0,8.9120993589743996e-07,0.0126,8.9119622507122997e-07,0.0252, 8.9471118233617996e-07,0.0378,9.0166132478632003e-07,0.0504,9.0861146723646996e-07,0.063, 8.9910363247862999e-07,0.075600000000000001,8.7847257834757996e-07,0.088200000000000001, 8.6163693019942995e-07,0.1008,8.5754362535613004e-07,), PROL_DROIT='CONSTANT',); FLY_1_16=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.5903935185184999e-07,-0.088200000000000001,8.5690046296295998e-07, -0.075600000000000001,8.5831018518518999e-07,-0.063,8.6167307692307999e-07,-0.0504, 8.7125320512820998e-07,-0.0378,8.8563586182335997e-07,-0.0252,8.7089298433048003e-07,-0.0126, 8.6842877492877004e-07,0.0,8.7942111823362e-07,0.0126,8.6840135327634996e-07,0.0252, 8.7083814102563997e-07,0.0378,8.8554985754985996e-07,0.0504,8.7113977920228004e-07,0.063, 8.6153846153846001e-07,0.075600000000000001,8.5815313390312996e-07,0.088200000000000001, 8.5672471509971999e-07,0.1008,8.5884116809116995e-07,), PROL_DROIT='CONSTANT',); FLY_1_17=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='Y', VALE= (-0.1008,8.6388675213674999e-07,-0.088200000000000001,8.5563782051281999e-07, -0.075600000000000001,8.5087019230768996e-07,-0.063,8.4755965099714995e-07,-0.0504, 8.4761698717949003e-07,-0.0378,8.5133636039885996e-07,-0.0252,8.4844088319088001e-07,-0.0126, 8.4633689458689002e-07,0.0,8.4644658119657999e-07,0.0126,8.4630947293447004e-07,0.0252, 8.4838479344729004e-07,0.0378,8.512516025641e-07,0.0504,8.4750480769231e-07,0.063, 8.4742378917379002e-07,0.075600000000000001,8.5071064814815003e-07,0.088200000000000001, 8.5545584045584e-07,0.1008,8.6368108974359e-07,), PROL_DROIT='CONSTANT',); FLUXRD1=DEFI_NAPPE(FONCTION=(FLY_1_1,FLY_1_2,FLY_1_3,FLY_1_4,FLY_1_5,FLY_1_6,FLY_1_7,FLY_1_8,FLY_1_9,FLY_1_10,FLY_1_11,FLY_1_12, FLY_1_13,FLY_1_14,FLY_1_15,FLY_1_16,FLY_1_17,), PARA= (-0.1008,-0.088200000000000001,-0.075600000000000001,-0.063,-0.0504,-0.0378,-0.0252, -0.0126,0.0,0.0126,0.0252,0.0378,0.0504,0.063,0.075600000000000001,0.088200000000000001,0.1008,), PROL_GAUCHE='CONSTANT', NOM_PARA='Z', PROL_DROIT='CONSTANT',); # # DEFINITION DES MATERIAUX ET AFFECTATIONS # # **** DEFINITION DES MATERIAUX SANS FLUX NEUTRONIQUE **** # # # FAMILLE ASSEMBLAGE : NUMERO_FAM # # EMBOUT SUPERIEUR E_ES=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(100.0,2.0,300.0,3.0,), PROL_DROIT='CONSTANT',); NU_ES=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(100.0,2.0,300.0,3.0,), PROL_DROIT='CONSTANT',); AL_ES=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(100.0,2.0,300.0,3.0,), PROL_DROIT='CONSTANT',); MT_ES=DEFI_MATERIAU(ELAS_FO=_F(NU=NU_ES, ALPHA=AL_ES, RHO=7800.0, E=E_ES,),); # EMBOUT INFERIEUR E_EI=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(100.0,2.0,300.0,3.0,), PROL_DROIT='CONSTANT',); NU_EI=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(100.0,2.0,300.0,3.0,), PROL_DROIT='CONSTANT',); AL_EI=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(100.0,2.0,300.0,3.0,), PROL_DROIT='CONSTANT',); MT_EI=DEFI_MATERIAU(ELAS_FO=_F(NU=NU_EI, ALPHA=AL_EI, RHO=12.0, E=E_EI,),); MT_RIG=DEFI_MATERIAU(ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); # FONCTION COUPLE EN FONCTION DE DRZ POUR LA LIAISON GRILLE/CRAYON FOTRAC=DEFI_FONCTION(PROL_GAUCHE='LINEAIRE', NOM_PARA='DRZ', VALE=(1.0,1.0,0.0,0.0,0.0,0.0,0.0,0.0,), PROL_DROIT='LINEAIRE',); MT_RE1=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG1, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE2=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG2, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE3=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG3, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE4=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG4, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE5=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG5, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE6=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG6, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE7=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG7, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE8=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG8, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE9=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG9, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); MT_RE10=DEFI_MATERIAU(DIS_CONTACT=_F(EFFO_N_INIT=-35.0, RELA_MZ=FOTRAC, RIGI_N_FO=FRIG10, COULOMB=1.0,), ELAS=_F(NU=0.0, ALPHA=0.0, RHO=0.0, E=1.0,),); # SYSTEME DE MAINTIEN E_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); NU_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); AL_MA=DEFI_CONSTANTE(VALE=0.29999999999999999,); SY_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); DS_MA=DEFI_CONSTANTE(VALE=0.29999999999999999,); NP_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); MEY_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); MPY_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); MEZ_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); MPZ_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); CAY_MA=DEFI_CONSTANTE(VALE=0.29999999999999999,); CBY_MA=DEFI_CONSTANTE(VALE=0.29999999999999999,); CAZ_MA=DEFI_CONSTANTE(VALE=0.29999999999999999,); CBZ_MA=DEFI_CONSTANTE(VALE=0.29999999999999999,); MPX_MA=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); MT_MA=DEFI_MATERIAU(VMIS_POUTRE_FO=_F(MEZ=MEZ_MA, MPX=MPX_MA, MPZ=MPZ_MA, CBY=CBY_MA, NP=NP_MA, CBZ=CBZ_MA, MEY=MEY_MA, CAY=CAY_MA, CAZ=CAZ_MA, MPY=MPY_MA,), ECRO_LINE_FO=_F(D_SIGM_EPSI=DS_MA, SY=SY_MA,), ELAS_FO=_F(NU=NU_MA, ALPHA=AL_MA, RHO=7800.0, E=E_MA,),); # # **** DEFINITION DES MATERIAUX AVEC FLUX NEUTRONIQUE **** # # # GRILLE E_GRE=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); E_GRM=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); NU_GRE=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); NU_GRM=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); AL_GRE=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); AL_GRM=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); # TUBE GUIDE E_TU=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); NU_TU=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); AL_TU=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); # CRAYON E_CR=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); NU_CR=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); AL_CR=DEFI_FONCTION(PROL_GAUCHE='CONSTANT', NOM_PARA='TEMP', VALE=(0.0,1.0,5.0,2.0,), PROL_DROIT='CONSTANT',); # GRANDISSEMENT DES GRILLES # GRILLES EXTREMES 1 ET 10 MT_GRE1=DEFI_MATERIAU(GRAN_IRRA=_F(FONC_MULT=FLUX_F1, FLUX_L=FLUXAX1, FLUX_TN=FLUXRD1, S=1.0, A=0.0,), LEMAITRE=_F(N=0.0, UN_SUR_M=0.0, QSR_K=1.0, UN_SUR_K=0.0,), ELAS_FO=_F(NU=NU_GRE, ALPHA=AL_GRE, RHO=7800.0, E=E_GRE,),); # GRILLES DE MELANGE MT_GRM1=DEFI_MATERIAU(GRAN_IRRA=_F(FONC_MULT=FLUX_F1, FLUX_L=FLUXAX1, FLUX_TN=FLUXRD1, S=1.0, A=0.0,), LEMAITRE=_F(N=0.0, UN_SUR_M=0.0, QSR_K=2.0, UN_SUR_K=0.0,), ELAS_FO=_F(NU=NU_GRM, ALPHA=AL_GRM, RHO=7800.0, E=E_GRM,),); # DEFINITION DES MATERIAUX VISCOPLASTIQUES ( TUBES ET CRAYONS ) MT_TU1=DEFI_MATERIAU(GRAN_IRRA=_F(FONC_MULT=FLUX_F1, FLUX_L=FLUXAX1, FLUX_TN=FLUXRD1, S=1.0, A=0.0,), LEMAITRE=_F(N=0.0, UN_SUR_M=0.0, QSR_K=2.0, UN_SUR_K=0.0,), ELAS_FO=_F(NU=NU_TU, ALPHA=AL_TU, RHO=7800.0, E=E_TU,),); MT_CR1=DEFI_MATERIAU(GRAN_IRRA=_F(FONC_MULT=FLUX_F1, FLUX_L=FLUXAX1, FLUX_TN=FLUXRD1, S=1.0, A=0.0,), LEMAITRE=_F(N=0.0, UN_SUR_M=0.0, QSR_K=2.0, UN_SUR_K=0.0,), ELAS_FO=_F(NU=NU_CR, ALPHA=AL_CR, RHO=7800.0, E=E_CR,),); # # AFFECTATION DES MATERIAUX A CHAUD - CYCLE # # A_MAT_1=AFFE_MATERIAU(AFFE=(_F(TEMP_REF=100.0, MATER=MT_MA, GROUP_MA=('MAINTI_Y','MAINTI_Z',),), _F(TEMP_REF=100.0, MATER=MT_GRM1, GROUP_MA='GRIL_I',), _F(TEMP_REF=100.0, MATER=MT_GRE1, GROUP_MA='GRIL_E',), _F(TEMP_REF=100.0, MATER=MT_CR1, GROUP_MA='CRAY',), _F(TEMP_REF=100.0, MATER=MT_TU1, GROUP_MA='GUID',), _F(TEMP_REF=100.0, MATER=MT_EI, GROUP_MA='EBOINF',), _F(TEMP_REF=100.0, MATER=MT_EI, GROUP_MA=('PI_PLE','PI_TRO',),), _F(TEMP_REF=100.0, MATER=MT_ES, GROUP_MA='EBOSUP',), _F(TEMP_REF=100.0, MATER=MT_RIG, GROUP_MA='RIGID',), _F(TEMP_REF=100.0, MATER=MT_RE1, GROUP_MA='ELA1',), _F(TEMP_REF=100.0, MATER=MT_RE2, GROUP_MA='ELA2',), _F(TEMP_REF=100.0, MATER=MT_RE3, GROUP_MA='ELA3',), _F(TEMP_REF=100.0, MATER=MT_RE4, GROUP_MA='ELA4',), _F(TEMP_REF=100.0, MATER=MT_RE5, GROUP_MA='ELA5',), _F(TEMP_REF=100.0, MATER=MT_RE6, GROUP_MA='ELA6',), _F(TEMP_REF=100.0, MATER=MT_RE7, GROUP_MA='ELA7',), _F(TEMP_REF=100.0, MATER=MT_RE8, GROUP_MA='ELA8',), _F(TEMP_REF=100.0, MATER=MT_RE9, GROUP_MA='ELA9',), _F(TEMP_REF=100.0, MATER=MT_RE10, GROUP_MA='ELA10',),), MAILLAGE=MA1,); # L_INST_1=DEFI_LIST_REEL(INTERVALLE=(_F(JUSQU_A=0.5, NOMBRE=1,), _F(JUSQU_A=1000.0, NOMBRE=1,), _F(JUSQU_A=2000.0, NOMBRE=1,), _F(JUSQU_A=3000.0, NOMBRE=5,), _F(JUSQU_A=4000.0, NOMBRE=1,), _F(JUSQU_A=5000.0, NOMBRE=1,), _F(JUSQU_A=6000.0, NOMBRE=1,), _F(JUSQU_A=7000.0, NOMBRE=1,), _F(JUSQU_A=8000.0, NOMBRE=1,),), DEBUT=0.0,); L_ARCH_1=DEFI_LIST_REEL(INTERVALLE=(_F(JUSQU_A=0.5, NOMBRE=1,), _F(JUSQU_A=1000.0, NOMBRE=1,), _F(JUSQU_A=2000.0, NOMBRE=1,), _F(JUSQU_A=3000.0, NOMBRE=5,), _F(JUSQU_A=4000.0, NOMBRE=1,), _F(JUSQU_A=5000.0, NOMBRE=1,), _F(JUSQU_A=6000.0, NOMBRE=1,), _F(JUSQU_A=7000.0, NOMBRE=1,), _F(JUSQU_A=8000.0, NOMBRE=1,),), DEBUT=0.0,); # # CALCUL PHASE I A V DU CYCLE 1 # RESU=STAT_NON_LINE(CHAM_MATER=A_MAT_1, MODELE=MO1, ARCHIVAGE=_F(LIST_INST=L_ARCH_1,), CONVERGENCE=_F(ITER_GLOB_MAXI=50, ITER_INTE_MAXI=500, RESI_GLOB_RELA=1.E-4, ARRET='OUI',), COMP_INCR=(_F(RELATION='VMIS_POU_LINE', GROUP_MA='MAINTIEN',), _F(RELATION='ASSE_COMBU', GROUP_MA=('CRAYONS','TUB_GUID',),), _F(RELATION='DIS_CONTACT', GROUP_MA='LI_GR_CR',), _F(COQUE_NCOU=1, RELATION='ELAS', GROUP_MA=('EMBO_INF','EMBO_SUP','PIEDS','GRILLES','LI_GR_GU',),),), INCREMENT=_F(NUME_INST_FIN=20, LIST_INST=L_INST_1,), CARA_ELEM=CARA1, RECH_LINEAIRE=_F(ITER_LINE_MAXI=3,), NEWTON=_F(REAC_ITER=1, MATRICE='TANGENTE',), SOLVEUR=_F(METHODE='MULT_FRONT', RENUM='MD',), EXCIT=(_F(FONC_MULT=ARCH_F1, CHARGE=ARCH_1,), _F(FONC_MULT=ARCH_F1, CHARGE=FOARCH_1,), _F(FONC_MULT=HYDR_F1, CHARGE=HYDR_1,), _F(FONC_MULT=HYDR_F1, CHARGE=FOHYDR_1,), _F(FONC_MULT=CLDI_F1, CHARGE=CL_DI_1,), _F(CHARGE=CL_PER_1,), _F(CHARGE=CL_CTC,), _F(CHARGE=PESANT_1,), _F(CHARGE=THERM_1,),), PARM_THETA=0.5,); FIN();