4. Examples#
4.1. Command file for MONOCRISTAL#
The commands below illustrate the content of the sd_comporfor single-crystal behavior:
COMPOR1 = DEFI_COMPOR (
MONOCRISTAL =(
_F (MATER = ACIER,
ECOULEMENT =' MONO_VISC1 ',
ECRO_ISOT =' MONO_ISOT1 ',
ECRO_CINE =' MONO_CINE1 ',
ELAS =' ELAS ',
FAMI_SYST_GLIS =' OCTAEDRIQUE ',),),);
4.2. Printing the data structure#
===== IMPR_CO OF STRUCTURE FROM DONNEE: COMPOR1???????????????????
ATTRIBUT: F CONTENU: T BASE: >G <
NOMBRE OF OBJETS (OR COLLECTIONS) TROUVES: 2
=== === === === === === === === === === === === === === ===
IMPRESSION FROM CONTENU DES OBJETS TROUVES:
----------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPOR1. CPRI >>>>
1 - 1 1 44 1 1
6 - 1 44
----------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPOR1. CPRK >>>>
1 - > OCTAEDRIQUE <> ACIER <> MONO_VISC1 <
4 - > MONO_ISOT1 <> MONO_CINE1 <> ELAS <
===== FIN IMPR_CO OF FROM STRUCTURE OF DONNEE: COMPOR1??????????????????
4.3. Command file for POLYCRISTAL#
The commands below illustrate the content of the sd_comporfor homogenized polycrystal behavior (test SSNV171B) based on the previous monocrystal:
COMPORP = DEFI_COMPOR (POLYCRISTAL =(
_F (MONOCRISTAL = COMPOR1,
FRAC_VOL =0.25,
ANGL_REP =( 30.,0.,0. )),
_F (MONOCRISTAL = COMPOR1,
FRAC_VOL =0.25,
ANGL_REP =( 20.,0.,0. )),
_F (MONOCRISTAL = COMPOR1,
FRAC_VOL =0.25,
ANGL_REP =( 10.,0.,0. )),
_F (MONOCRISTAL = COMPOR1,
FRAC_VOL =0.25,
ANGL_REP =( 40.,0.,0. )),
),
LOCALISATION =' BETA ', DA=0. , DL=0. ,
);
4.4. Printing the data structure#
===== IMPR_CO OF STRUCTURE FROM DONNEE: COMPORP???????????????????
ATTRIBUT: F CONTENU: T BASE: >G <
NOMBRE FROM OBJETS (OR COLLECTIONS) TROUVES: 3
=== === === === === === === === === === === === === === ===
IMPRESSION FROM CONTENU DES OBJETS TROUVES:
--------------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPORP. CPRI >>>>
1 - 2 4 176 1 1
6 - 1 44 1 1 44
11 - 1 1 44 1 1
16 - 44 9 2
--------------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPORP. CPRK >>>>
1 - > BETA <> COMPOR1 <> 1 <
4 - > OCTAEDRIQUE <> ACIER <> MONO_VISC1 <
7 - > MONO_ISOT1 <> MONO_CINE1 <> ELAS <
--------------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPORP. CPRR >>>>
1 - 2.50000D-01 3.00000D+01 0.00000D+01 0.00000D+00 2.50000D-01
6 - 2.00000D+01 0.00000D+00 0.00000D+00 2.50000D-01 1.00000D+01
11 - 0.00000D+00 0.00000D+00 2.50000D+00 2.50000D-01 4.00000D+01 0.00000D+00
16 - 0.00000D+00 0.00000D+00 0.00000D+00
===== FIN IMPR_CO OF FROM STRUCTURE OF DONNEE: COMPORP??????????????????
4.5. Command file for MULTIFIBRE#
The commands below illustrate the content of the sd_comporfor multifiber behavior (test SSNL119B):
GF= DEFI_GEOM_FIBRE (
FIBRE = _F (GROUP_FIBRE =' SACI ', CARA =' DIAMETRE ',
COOR_AXE_POUTRE = (0.,0.,),
VALE =( 0.066, -0.218, 32.E-3,
-0.066, -0.218, 32.E-3,
0.066, 0.218, 8.E-3,
-0.066, 0.218,8.E-3,),),
SECTION = _F (GROUP_FIBRE =' SBET ', MAILLAGE_SECT = MASEC,
TOUT_SECT = 'OUI', COOR_AXE_POUTRE = (0., 0.,),),
MOPOU = AFFE_MODELE (
MAILLAGE = MAPOU,
AFFE =_F (TOUT =' OUI ', PHENOMENE =' MECANIQUE', MODELISATION =' POU_D_EM ',),
);
EB = 37272.0E+06
BETON = DEFI_MATER_GC (
MAZARS =_F (UNITE_LONGUEUR = 'M',
FCJ =40.963E+06, EIJ =EB, EPSI_C =1.75754E-03, AT=1.0, NU=0.2,
),
RHO =2400.0, INFO =2,
)
ACIER = DEFI_MATER_GC (
ACIER =_F (E = 2.0E+11, D_ SIGM_EPSI =3.28E+9, SY=4.E+8,),
RHO =7800. ,
)
MATOR = DEFI_MATERIAU (ELAS =_F (E=2.E11, NU=0.0, RHO =7800.0,),);
POUCA = AFFE_CARA_ELEM (MODELE = MOPOU, INFO =1,
POUTRE =_F (GROUP_MA =( 'POUTRE'),
SECTION =' RECTANGLE ', CARA =(' HY ',' HZ '),
VALE =( 0.2,0.5), PREC_AIRE =5., PREC_INERTIE =10.,),
ORIENTATION =_F (GROUP_MA =( 'POUTRE'), CARA =' ANGL_VRIL ',
VALE =-90.0,),
GEOM_FIBRE =GF,
MULTIFIBRE =_F (GROUP_MA =( 'POUTRE'), GROUP_FIBRE =( 'SBET', 'SACI')),
);
COMPPMF = DEFI_COMPOR (GEOM_FIBRE =GF,
MATER_SECT = MATOR,
MULTIFIBRE =(
_F (GROUP_FIBRE =' SACI ', MATER = ACIER, RELATION =' VMIS_CINE_LINE'),
_F (GROUP_FIBRE =' SBET ', MATER = BETON, RELATION =' MAZARS_GC'),
),
)
IMPR_CO (CONCEPT =_F (NOM = COMPPMF))
4.6. Printing the data structure#
===== IMPR_CO OF STRUCTURE FROM DONNEE: COMPPMF???????????????????
ATTRIBUT: F CONTENU: T BASE: >G <
NOMBRE OF OBJETS (OR COLLECTIONS) TROUVES: 2
=== === === === === === === === === === === === === === ===
IMPRESSION FROM CONTENU DES OBJETS TROUVES:
--------------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPPMF. CPRI >>>>
1 - 3 7 2
--------------------------------------------------------------------------------
IMPRESSION SEGMENT FROM VALEURS > COMPPMF. CPRK >>>>
1 - > SBET <> BETON <> MAZARS_GC <
4 - > ANALYTIQUE <> PETIT <> 40 <
7 - > SACI <> ACIER <> VMIS_CINE_LINE <
10 - > ANALYTIQUE <> PETIT <> 4 <
13 - > MATOR <
===== FIN IMPR_CO OF FROM STRUCTURE OF DONNEE: COMPPMF??????????????????