From f15efc0bd0bfc49f268b7eb42c59b49053cb834b Mon Sep 17 00:00:00 2001 From: ilct <> Date: Tue, 29 Nov 2011 13:07:55 +0000 Subject: [PATCH] *** empty log message *** --- Carmel3D/jdc_e1.comm | 64 +++++++++++++++++++++++++++++++++ Carmel3D/jdc_e2.comm | 23 ++++++++++++ Carmel3D/jdc_f1.comm | 83 +++++++++++++++++++++++++++++++++++++++++++ Carmel3D/jdc_m1.comm | 40 +++++++++++++++++++++ Carmel3D/jdc_ml1.comm | 17 +++++++++ Carmel3D/jdc_pa1.comm | 17 +++++++++ 6 files changed, 244 insertions(+) create mode 100644 Carmel3D/jdc_e1.comm create mode 100644 Carmel3D/jdc_e2.comm create mode 100644 Carmel3D/jdc_f1.comm create mode 100644 Carmel3D/jdc_m1.comm create mode 100644 Carmel3D/jdc_ml1.comm create mode 100644 Carmel3D/jdc_pa1.comm diff --git a/Carmel3D/jdc_e1.comm b/Carmel3D/jdc_e1.comm new file mode 100644 index 00000000..7357fb58 --- /dev/null +++ b/Carmel3D/jdc_e1.comm @@ -0,0 +1,64 @@ + +cuivre1=CONDUCTOR(CONDUCTIVITY=_F(LAW='LINEAR', + VALUE_COMPLEX=('RI',1.0,4.0,),), + PERMEABILITY=_F(LAW='NONLINEAR', + VALUE_REAL=2,),); + +diel1=DIELECTRIC(PERMITTIVITY=_F(LAW='LINEAR', + VALUE_COMPLEX=('MP',2.0,90.0,),), + PERMEABILITY=_F(LAW='LINEAR', + VALUE_COMPLEX=(2+8j),),); + +diel_nl1=DIELECTRIC(PERMITTIVITY=_F(LAW='LINEAR', + VALUE_REAL=4,), + PERMEABILITY=_F(LAW='NONLINEAR', + VALUE_REAL=0, + NATURE='SPLINE', + FILENAME='/home/G17214/.Eficas_Openturns/jdc1.comm', + APPLIEDTO='B(H)&H(B)',),); + +diel_nl2=DIELECTRIC(PERMITTIVITY=_F(LAW='LINEAR', + VALUE_REAL=5,), + PERMEABILITY=_F(LAW='NONLINEAR', + VALUE_REAL=6.5, + NATURE='MARROCCO', + ALPHA=0, + TAU=0, + C=0, + EPSILON=0,),); + +diel_nl3=DIELECTRIC(PERMITTIVITY=_F(LAW='LINEAR', + VALUE_COMPLEX=('RI',3.4,2.1,),), + PERMEABILITY=_F(LAW='NONLINEAR', + VALUE_REAL=5.34789, + NATURE='MARROCCO+SATURATION', + ALPHA=0, + TAU=0, + C=0, + EPSILON=0, + BMAX=0, + HSAT=0, + BSAT=0, + JOIN='SPLINE', + APPLIEDTO='B(H)&H(B)',),); + +zf1=ZSURFACIC(CONDUCTIVITY=_F(LAW='LINEAR', + VALUE_REAL=0.25638,), + PERMEABILITY=_F(LAW='LINEAR', + VALUE_COMPLEX=(3.1200000000000001+5.8959999999999999j),),); + +nil1=NILMAT(); + +arete1=MESH_GR(Material=diel_nl1,); + +mesh3=MESH_GR(Material=diel_nl1,); + +mesh2=MESH_GR(Material=cuivre1,); + +nilmesh1=MESH_GR(Material=nil1,); + +SOURCES(STRANDED_INDUCTOR=_F(NAME='iiiiii', + NTURNS=1, + CURJ=0, + POLAR=0,),); +#CHECKSUM:557b11cc62f29372c2f1c59266e33885 -:FIN CHECKSUM \ No newline at end of file diff --git a/Carmel3D/jdc_e2.comm b/Carmel3D/jdc_e2.comm new file mode 100644 index 00000000..badcd461 --- /dev/null +++ b/Carmel3D/jdc_e2.comm @@ -0,0 +1,23 @@ + +cond1=CONDUCTOR(CONDUCTIVITY=_F(LAW='LINEAR', + VALUE_REAL=2,), + PERMEABILITY=_F(LAW='LINEAR', + VALUE_COMPLEX=('RI',2.0,4.0,),),); + +diel1=DIELECTRIC(PERMITTIVITY=_F(LAW='LINEAR', + VALUE_REAL=2,), + PERMEABILITY=_F(LAW='LINEAR', + HOMOGENEOUS='TRUE', + ISOTROPIC='TRUE', + VALUE_REAL=2,),); + +EM_ANISOTROPIC(CONDUCTIVITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.mater', + PERMEABILITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.mater',); + +grm1=MESH_GR(Material=cond1,); + +SOURCES(STRANDED_INDUCTOR=_F(NAME='jjjjjjjj', + NTURNS=1, + CURJ=0, + POLAR=0,),); +#CHECKSUM:a6d4c56783d1d09d6b54c996663cef00 -:FIN CHECKSUM \ No newline at end of file diff --git a/Carmel3D/jdc_f1.comm b/Carmel3D/jdc_f1.comm new file mode 100644 index 00000000..44fa4687 --- /dev/null +++ b/Carmel3D/jdc_f1.comm @@ -0,0 +1,83 @@ + +loi_l1=LAW(LINEAR='YES',); + +loi_nl1=LAW(LINEAR='NO', + NATURE='SPLINE', + FILENAME='/home/G17214/.Eficas_Openturns/jdc-sansjdc.comm', + APPLIEDTO='B(H)&H(B)',); + +loi_nl2=LAW(LINEAR='NO', + NATURE='MARROCCO', + ALPHA=0, + TAU=0, + C=0, + EPSILON=0,); + +loi_nl3=LAW(LINEAR='NO', + NATURE='MARROCCO+SATURATION', + ALPHA=0, + TAU=0, + C=0, + EPSILON=0, + BMAX=0, + HSAT=0, + BSAT=0, + JOIN='PARABOLIC', + APPLIEDTO='B(H)',); + +cd3=CONDUCTOR(CONDUCTIVITY=_F(LAW=loi_l1, + VALUE_REAL=2,), + PERMEABILITY=_F(LAW=loi_l1, + VALUE_COMPLEX=1,),); + +cd4=CONDUCTOR(CONDUCTIVITY=_F(LAW=loi_l1, + VALUE_COMPLEX=('RI',1.0,3.0,),), + PERMEABILITY=_F(LAW=loi_l1, + VALUE_COMPLEX=1,),); + +diel1=DIELECTRIC(PERMITTIVITY=_F(LAW=loi_l1, + VALUE_COMPLEX=1,), + PERMEABILITY=_F(LAW=loi_nl3, + VALUE_REAL=2,),); + +diel2=DIELECTRIC(PERMITTIVITY=_F(LAW=loi_l1, + VALUE_REAL=2,), + PERMEABILITY=_F(LAW=loi_nl1, + VALUE_REAL=5,),); + +cd2=CONDUCTOR(CONDUCTIVITY=_F(LAW=loi_l1, + VALUE_REAL=0,), + PERMEABILITY=_F(LAW=loi_l1, + VALUE_COMPLEX=1,),); + +cd10=CONDUCTOR(CONDUCTIVITY=_F(LAW=loi_l1, + HOMOGENEOUS='TRUE', + VALUE_REAL=8,), + PERMEABILITY=_F(LAW=loi_l1, + VALUE_COMPLEX=(2+5j),),); + +cd1=CONDUCTOR(CONDUCTIVITY=_F(LAW=loi_l1, + VALUE_COMPLEX=1,), + PERMEABILITY=_F(LAW=loi_l1, + VALUE_COMPLEX=1,),); + +zf1=ZSURFACIC(CONDUCTIVITY=_F(LAW=loi_l1, + VALUE_REAL=3,), + PERMEABILITY=_F(LAW=loi_l1, + VALUE_COMPLEX=('RI',2.0,0.22323232,),),); + +EM_ISOTROPIC(CONDUCTIVITY_File='/home/G17214/.Eficas_Openturns/jdc1.med', + PERMEABILITY_File='/home/G17214/.Eficas_Openturns/jdc1.med',); + +EM_ANISOTROPIC(CONDUCTIVITY_File='/home/G17214/.Eficas_Openturns/jdc1.mater', + PERMEABILITY_File='/home/G17214/.Eficas_Openturns/jdc1.mater',); + +SOURCES(STRANDED_INDUCTOR=_F(NAME='vvvvvvv', + NTURNS=1, + CURJ=0, + POLAR=0,),); + +arete1=MESH_GR(Material=diel1,); + +surf1=MESH_GR(Material=zf1,); +#CHECKSUM:3d23a16f6fd8628580590ab55ffeca01 -:FIN CHECKSUM \ No newline at end of file diff --git a/Carmel3D/jdc_m1.comm b/Carmel3D/jdc_m1.comm new file mode 100644 index 00000000..957536c0 --- /dev/null +++ b/Carmel3D/jdc_m1.comm @@ -0,0 +1,40 @@ + +loiL1=LAW(LINEAR='YES',); + +loiNL1=LAW(LINEAR='NO', + NATURE='SPLINE', + FILENAME='/home/G17214/.Eficas_Carmel3D/carmel2.comm', + APPLIEDTO='B(H)&H(B)',); + +mat1=MATERIAU(DIELECTRIC=_F(PERMITTIVITY=_F(LAW=loiL1, + VALUE_REAL=2,), + PERMEABILITY=_F(LAW=loiL1, + VALUE_REAL=3,),),); + +mat2=MATERIAU(CONDUCTOR=_F(CONDUCTIVITY=_F(LAW=loiL1, + VALUE_REAL=5,), + PERMEABILITY=_F(LAW=loiNL1, + VALUE_REAL=2,),),); + +mat3=MATERIAU(ZSURFACIC=_F(CONDUCTIVITY=_F(LAW=loiL1, + VALUE_REAL=3,), + PERMEABILITY=_F(LAW=loiNL1, + VALUE_REAL=3,),),); + +mat_emi1=MATERIAU(HOMOGENEOUS='FALSE', + EM_ISOTROPIC=_F(CONDUCTIVITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.med', + PERMEABILITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.med',),); + +mat_ema1=MATERIAU(ISOTROPIC='FALSE', + EM_ANISOTROPIC=_F(CONDUCTIVITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.mater', + PERMEABILITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.mater',),); + +nilmat1=NILMAT(); + +mesh1=MESH_GR(Material=mat1,); + +SOURCES(STRANDED_INDUCTOR=_F(NAME='ttttttt', + NTURNS=1, + CURJ=0, + POLAR=0,),); +#CHECKSUM:7d08ffb0b9773bb5b80682ed5238792d -:FIN CHECKSUM \ No newline at end of file diff --git a/Carmel3D/jdc_ml1.comm b/Carmel3D/jdc_ml1.comm new file mode 100644 index 00000000..853a5a8e --- /dev/null +++ b/Carmel3D/jdc_ml1.comm @@ -0,0 +1,17 @@ + +SOURCES(STRANDED_INDUCTOR=_F(NAME='llllllllll', + NTURNS=1, + CURJ=0, + POLAR=0,),); + +LINEAR=L_LAW(); + +diel1=MATERIAU(DIELECTRIC=_F(PERMITTIVITY=_F(LAW=LINEAR, + VALUE_REAL=1,), + PERMEABILITY=_F(LAW=LINEAR, + VALUE_REAL=4,),),); + +em1=MATERIAU(ISOTROPIC='FALSE', + EM_ANISOTROPIC=_F(CONDUCTIVITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.mater', + PERMEABILITY_File='/home/G17214/.Eficas_Carmel3D/jdc1.mater',),); +#CHECKSUM:5e3593b9a5a59bcea70190f481125e1e -:FIN CHECKSUM \ No newline at end of file diff --git a/Carmel3D/jdc_pa1.comm b/Carmel3D/jdc_pa1.comm new file mode 100644 index 00000000..2de56fad --- /dev/null +++ b/Carmel3D/jdc_pa1.comm @@ -0,0 +1,17 @@ + +cond2=MATERIAU(TYPE='CONDUCTOR', + CONDUCTIVITY=_F(LAW=LINEAR, + HOMOGENEOUS='TRUE', + VALUE_REAL=2.3,), + PERMEABILITY=_F(LAW=LINEAR, + VALUE_REAL=5,),); + +LINEAR=L_LAW(); + +cond1=MATERIAU(TYPE='CONDUCTOR', + CONDUCTIVITY=_F(LAW=LINEAR, + HOMOGENEOUS='TRUE', + VALUE_REAL=2,), + PERMEABILITY=_F(LAW=LINEAR, + VALUE_COMPLEX=('RI',2.0,3.0,),),); +#CHECKSUM:ffb8e67edcb117fb4d6872eb08de66cf -:FIN CHECKSUM \ No newline at end of file -- 2.39.2