# HEAD 800 mm2 conductor properties-apply tension-torque and bending in sequence # #------------------------------------------------------------------------------------------ # Control data # # maxit ndim isolvr npoint ipri conr gacc iproc CONTROL 100 3 2 8 01 1.e-5 0.0 stressfree DYNCONT 1 0.0 1e-4 -0.05 # t dt dtvi dtdy dt0 type hla? # eldamp help raleigh 0.0 1e-9 #--------------------------------------------------------------------------- Visres Integration 1 sigma-xx sigma-yy sigma-zz SIGMA-XX-AX SIGMA-XX-MY SIGMA-XX-MZ vconfor-x vconfor-z #--------------------------------------------------------------------------- # Nocoor input # # no x y z Nocoor Coordinates 1 0.0 0.0 0.0 3 0.01 0.0 0.0 #--------------------------------------------------------------------------- # Nocoor input of mid radial nodes (requires two pr element due to thickwall hashear364) # # no x y z Nocoor Coordinates 40001 0.0 0.0 0.0 40004 0.01 0.0 0.0 Nocoor Coordinates 41001 0.0 0.0 0.0 41004 0.01 0.0 0.0 Nocoor Coordinates 42001 0.0 0.0 0.0 42004 0.01 0.0 0.0 Nocoor Coordinates 43001 0.0 0.0 0.0 43004 0.01 0.0 0.0 Nocoor Coordinates 44001 0.0 0.0 0.0 44004 0.01 0.0 0.0 Nocoor Coordinates 45001 0.0 0.0 0.0 45004 0.01 0.0 0.0 Nocoor Coordinates 46001 0.0 0.0 0.0 46004 0.01 0.0 0.0 Nocoor Coordinates 47001 0.0 0.0 0.0 47004 0.01 0.0 0.0 #------------------------------------------------------------------------ # Elcon input # # The core # # group elty material no n1 n2 n3 n4 Elcon copper0 hshear364 coppermat 30001 1 2 40001 40002 30002 2 3 40003 40004 Elcon copper1 hshear364 coppermat 31001 1 2 41001 41002 31002 2 3 41003 41004 Elcon copper2 hshear364 coppermat 32001 1 2 42001 42002 32002 2 3 42003 42004 Elcon copper3 hshear364 coppermat 33001 1 2 43001 43002 33002 2 3 43003 43004 Elcon copper4 hshear364 coppermat 34001 1 2 44001 44002 34002 2 3 44003 44004 Elcon insulation1 hshear364 insulationmat 35001 1 2 45001 45002 35002 2 3 45003 45004 Elcon copperscr hshear364 coppermat 36001 1 2 46001 46002 36002 2 3 46003 46004 Elcon insulation2 hshear364 insulationmat 37001 1 2 47001 47002 37002 2 3 47003 47004 # # #--------------------------------------------------------------------------- # Orient input # # The core # no x y z Elorient Coordinates 30001 0 1e3 0 30002 0 1e3 0 Elorient Coordinates 31001 0 1e3 0 31002 0 1e3 0 Elorient Coordinates 32001 0 1e3 0 32002 0 1e3 0 Elorient Coordinates 33001 0 1e3 0 33002 0 1e3 0 Elorient Coordinates 34001 0 1e3 0 34002 0 1e3 0 Elorient Coordinates 35001 0 1e3 0 35002 0 1e3 0 Elorient Coordinates 36001 0 1e3 0 36002 0 1e3 0 Elorient Coordinates 37001 0 1e3 0 37002 0 1e3 0 # #------------------------------------------------------------------ # # Element property input # #ELPROP ELGRP SHEARHELIX GEOTYPE ri ro dry mass wet mass scale thims/phist thimd/ghist iop? ELPROP copper0 shearhelix cylr 0.0 0.00125 d d 1.0 ELPROP insulation1 shearhelix cylr 0.01053 0.02413 d d 1.0 ELPROP insulation2 shearhelix cylr 0.02523 0.02929 d d 1.0 # #ELPROP ELGRP SHEAR2HELIX GEOTYPE CPAR1 CPAR2 WD WS RAD ALFA SCALEFACT [PHIST GHIST ] ELPROP copper1 shear2helix cylr 0.0 0.00125 d d 0.00234 0.1556 6.0 ELPROP copper2 shear2helix cylr 0.0 0.00125 d d 0.00468 -0.3040 12.0 ELPROP copper3 shear2helix cylr 0.0 0.00125 d d 0.00702 0.4398 18.0 ELPROP copper4 shear2helix cylr 0.0 0.00125 d d 0.00936 -0.56 24.0 ELPROP copperscr shear2helix cylr 0.0 0.00055 d d 0.02468 0.663 72.0 # # Boundary condition data internal in conductor # Loc node dir # radial node "inside" of copper0 - should not be able to move as cpper0 is filled BONCON GLOBAL 40001 1 BONCON GLOBAL 40003 1 # only need the radial motion inside and outside so keep redundant dofs fixed BONCON GLOBAL 40001 2 repeat 4 1 BONCON GLOBAL 40001 3 repeat 4 1 BONCON GLOBAL 41001 2 repeat 4 1 BONCON GLOBAL 41001 3 repeat 4 1 BONCON GLOBAL 42001 2 repeat 4 1 BONCON GLOBAL 42001 3 repeat 4 1 BONCON GLOBAL 43001 2 repeat 4 1 BONCON GLOBAL 43001 3 repeat 4 1 BONCON GLOBAL 44001 2 repeat 4 1 BONCON GLOBAL 44001 3 repeat 4 1 BONCON GLOBAL 45001 2 repeat 4 1 BONCON GLOBAL 45001 3 repeat 4 1 BONCON GLOBAL 46001 2 repeat 4 1 BONCON GLOBAL 46001 3 repeat 4 1 BONCON GLOBAL 47001 2 repeat 4 1 BONCON GLOBAL 47001 3 repeat 4 1 # #------------------------------------------------------------------------------ # Material data # # name type poiss ro talfa tecond heatc em gm em2 # MATERIAL coppermat elastic 0.32 8e3 1.3e-5 50 800 1.1E11 MATERIAL insulationmat elastic 0.35 1e3 1.0e-4 2.0 50 400.0e6 # #-------------------------------------------------------------------------------------------- # contact interfaces #-------------------------------------------------------------------------------------------- # #tag::elcon[] #ELCON ELGR ELTY MATNAME ELID NOD1 [NOD2 NOD3 NOD4][REPEAT N NELINC NODINC] Elcon coppercontact1 hcont464 contmat-1 50001 40002 41001 50002 40004 41003 Elcon coppercontact2 hcont464 contmat-1 51001 41002 42001 51002 41004 42003 Elcon coppercontact3 hcont464 contmat-1 52001 42002 43001 52002 42004 43003 Elcon coppercontact4 hcont464 contmat-1 53001 42002 43001 53002 42004 43003 Elcon insulationcontact1 hcont464 contmat-1 54001 43002 44001 54002 43004 44003 Elcon copperscrcontact hcont464 contmat-1 55001 44002 45001 55002 44004 45003 Elcon insulationcontact2 hcont464 contmat-1 56001 45002 46001 56002 45004 46003 #end::elcon[] # MATERIAL contmat-1 fricontact 6 0.2 0.2 1e10 1e10 2e-15 10000.0E-6 1.0 1.0 -1.0 7e11 # #-------------------------------------------------------------------------------------------------- # tx=100.0 implies no friction in the current analysis time 0-20 # #CONTINT GRPNAME MASTERNAME SLAVENAMEI [IS1 ISN TX TY TZ MAXITIGAP] CONTINT coppercontact1 copper0 copper1 1 3 100.1 100.10 0 60 2 CONTINT coppercontact2 copper1 copper2 1 3 100.1 100.10 0 60 2 CONTINT coppercontact3 copper2 copper3 1 3 100.1 100.10 0 60 2 CONTINT coppercontact3 copper2 copper3 1 3 100.1 100.10 0 60 2 CONTINT coppercontact4 copper3 copper4 1 3 100.1 100.10 0 60 2 CONTINT insulationcontact1 copper4 insulation1 1 3 100.1 100.10 0 60 2 CONTINT copperscrcontact insulation1 copperscr 1 3 100.1 100.10 0 60 2 CONTINT insulationcontact2 copperscr insulation2 1 3 100.1 100.10 0 60 2 #-------------------------------------------------------------------------------------------------- #ELPROP ELGRP LAYERCONTACT GAP0 TTIME CNTR1 CNTR2 SCALEFACT[ KSHEAR ] ELPROP coppercontact1 layercontact D d D D 1.0 ELPROP coppercontact2 layercontact D d D D 1.0 ELPROP coppercontact3 layercontact D d D D 1.0 ELPROP coppercontact4 layercontact D d D D 1.0 ELPROP insulationcontact1 layercontact D d D D 1.0 ELPROP copperscrcontact layercontact D d D D 1.0 ELPROP insulationcontact2 layercontact D d D D 1.0 # #================================================================================================= # Load application and boundary conditions #----------------------------------------------------------------------------------------------- # TIMECO 20.0 0.10 0.10 100.0 static auto none disp 20 1 1e-5 #--------------------------------------------- # BONCON GLOBAL 1 1 BONCON GLOBAL 1 2 BONCON GLOBAL 1 3 BONCON GLOBAL 1 4 BONCON GLOBAL 3 2 BONCON GLOBAL 3 3 # #----------------------------------------------------------- PELOAD 100 100 #tag::load[] # axial CONSTR PDISP GLOBAL 3 1 1.0 300 # twist CONSTR PDISP GLOBAL 3 4 1.0 310 # bending (rotation of ends) CONSTR PDISP GLOBAL 1 5 -0.0005 320 CONSTR PDISP GLOBAL 3 5 0.0005 320 #end::load[] # force # drymass THIST 100 0 1.0 1 1.00 10 1.00 20 1.00 # axial elongation THIST 300 0 0.0 5.0 0.0001 # twist THIST 310 0 0.0 5.0 0.0 10.0 0.0001 # bending THIST 320 0.0 0.0 10.0 0.0 20.0 1.0