# HEAD 4-pt bending test 300mm2 - hshear353 model -09m-ae-5-lat-13/30MPa-mu035-6mm-cfor-gap #------------------------------------------------------------------------------------------ # Control data # # maxit ndim isolvr npoint ipri conr gacc iproc CONTROL 100 3 2 8 01 1.e-5 9.81 stressfree DYNCONT 1 0.0 1e-2 -0.05 # t dt dtvi dtdy dt0 type hla? #DYNRES_I TYPE ELID IGAU IPOINT [IPOINT2] #DYNRES_I 1 35184 3 3 1 #ELDAMP elgrp type values #Eldamp help raleigh 0.0 0.0 # # Centre and Helix Node systems # 1 -1000 - Centerline # 1001-3000 - PvC profile helices # 3001-4000 - Conductor helices # 4001-5000 - Armour layer 1 # # Radial node systems for hshear363- inside/outside conductor layers # 10001-11000 - Conductor # # 23001-24000 - Inner PP yarn # 25001-26000 - Outer PP yarn # # Cable element groups are numbered in the same way # # Then we need: # # Fixed points: # 30001 - 30002 and 32001 - 32002 # # Nodes for attaching rollers # 31001 - 31002 and 32003 - 32004 # #------------------------------------------------------------------------------------ # Visres Integration 1 sigma-xx sigma-yy sigma-xx-ax vconfor-x # #-------------------------------------------------------------------------- #-------------------------------------------------------------------------- # Test rig - rollers at 4 locations along the cable # # # This section only includes the accecories needed to handle external contacts and forces # Fixed nodes for moving spring Nocoor Coordinates 30001 3.7 0.0 0.0 30002 5.3 0.0 0.0 # Moving support spring nodes Nocoor Coordinates 31001 3.7 0.0 0.0 31002 5.3 0.0 0.0 # End spring nodes Nocoor Coordinates 32001 1.7 0.0 0.0 32002 7.3 0.0 0.0 32003 1.7 0.0 0.0 32004 7.3 0.0 0.0 ElCON loadspring1 spring137 loadspringmat1 30001 30001 31001 ElCON loadspring2 spring137 loadspringmat1 30002 30002 31002 ElCON rotspring1 spring137 rotspringmat1 30003 32001 32003 30004 32002 32004 ELORIENT eulerangle 30001 0.0 0.0 0.0 ELORIENT eulerangle 30002 0.0 0.0 0.0 ELORIENT eulerangle 30003 0.0 0.0 0.0 ELORIENT eulerangle 30004 0.0 0.0 0.0 # # ELPROP loadspring1 genspring 0 0 0 0 0 0 ELPROP loadspring2 genspring 0 0 0 0 0 0 ELPROP rotspring1 genspring 0 0 0 0 0 0 # For now: In reality the tube will rotate and require refined resolution MATERIAL loadspringmat1 genspring zero drivery zero zero zero rotmatz MATERIAL rotspringmat1 genspring zero zero zero zero zero rotmatz #MATERIAL MNAME EPCURVE IHARD EPS SIGMA MATERIAL drivery hycurve -1000 -1e13 1000 1e13 MATERIAL rotmatz hycurve -1000 -1e11 1000 1e11 MATERIAL zero hycurve -1000 0.0 1000 0.0 # ELCON endcontact1h cont164 tucontmath 37001 32003 repeat 2 1 0 ELCON endcontact1v cont164 tucontmatv 37003 32003 repeat 2 1 0 ELCON endcontact2h cont164 tucontmath 37101 32004 repeat 2 1 0 ELCON endcontact2v cont164 tucontmatv 37103 32004 repeat 2 1 0 # ELCON loadcontact1h cont164 tucontmath 37201 31001 repeat 2 1 0 ELCON loadcontact1v cont164 tucontmatv 37203 31001 repeat 2 1 0 ELCON loadcontact2h cont164 tucontmath 37301 31002 repeat 2 1 0 ELCON loadcontact2v cont164 tucontmatv 37303 31002 repeat 2 1 0 Elorient Eulerangle 37001 0 0 0 37004 0 0 0 Elorient Eulerangle 37101 0 0 0 37104 0 0 0 Elorient Eulerangle 37201 0 0 0 37204 0 0 0 Elorient Eulerangle 37301 0 0 0 37304 0 0 0 CONTINT endcontact1v endcontact1v tube 35001 35090 1.01 1.01 0 90 2 CONTINT endcontact2v endcontact2v tube 35001 35090 1.01 1.01 0 90 2 CONTINT loadcontact1v loadcontact1v tube 35001 35090 1.01 1.01 0 90 2 CONTINT loadcontact2v loadcontact2v tube 35001 35090 1.01 1.01 0 90 2 CONTINT endcontact1h endcontact1h tube 35001 35090 1.01 1.01 0 90 2 CONTINT endcontact2h endcontact2h tube 35001 35090 1.01 1.01 0 90 2 CONTINT loadcontact1h loadcontact1h tube 35001 35090 1.01 1.01 0 90 2 CONTINT loadcontact2h loadcontact2h tube 35001 35090 1.01 1.01 0 90 2 # type elno end ex ey ez fi dx1 dy1 dz1 dx2 dy2 dz2 # name type diam contpar1=1 contpar2=1 ELPROP endcontact1v roller 0.150 #contpar1=0 contpar2=1 ELPROP endcontact2v roller 0.150 #contpar1=0 contpar2=1 ELPROP loadcontact1v roller 0.150 #contpar1=0 contpar2=1 ELPROP loadcontact2v roller 0.150 #contpar1=0 contpar2=1 ELPROP endcontact1h roller 0.150 #contpar1=0 contpar2=1 ELPROP endcontact2h roller 0.150 #contpar1=0 contpar2=1 ELPROP loadcontact1h roller 0.150 #contpar1=0 contpar2=1 ELPROP loadcontact2h roller 0.150 #contpar1=0 contpar2=1 #ELECC RADIUS ELID ELEND IAXIS DX1 DY1 DZ1 DX2 DY2 DZ2 [REPEAT N ELINC DPHI] elecc radius 37003 1 1 0.0 -1.0 -0.150 0.0 1.0 -0.150 repeat 2 1 3.1416 elecc radius 37103 1 1 0.0 -1.0 -0.150 0.0 1.0 -0.150 repeat 2 1 3.1416 elecc radius 37203 1 1 0.0 -1.0 -0.150 0.0 1.0 -0.150 repeat 2 1 3.1416 elecc radius 37303 1 1 0.0 -1.0 -0.150 0.0 1.0 -0.150 repeat 2 1 3.1416 elecc radius 37001 1 1 0.0 -0.150 -1.0 0.0 -0.150 1.0 repeat 2 1 3.1416 elecc radius 37101 1 1 0.0 -0.150 -1.0 0.0 -0.150 1.0 repeat 2 1 3.1416 elecc radius 37201 1 1 0.0 -0.150 -1.0 0.0 -0.150 1.0 repeat 2 1 3.1416 elecc radius 37301 1 1 0.0 -0.150 -1.0 0.0 -0.150 1.0 repeat 2 1 3.1416 MATERIAL tucontmatv isokxycontact 0.5 100e6 rollz # name type mux muy mutx xname yname zname txname y2name MATERIAL rollz hycurve -1000.0 -1000.e6 1000.0 1000.e6 MATERIAL tucontmath isokxycontact 0.5 100e6 rollz1 # name type mux muy mutx xname yname zname txname y2name MATERIAL rollz1 hycurve -1000.0 -10000.e6 1000.0 10000.e6 eldamp endcontact1v contact 0.0 0.0 100.0 eldamp endcontact2v contact 0.0 0.0 100.0 eldamp loadcontact1v contact 0.0 0.0 1000.0 eldamp loadcontact2v contact 0.0 0.0 1000.0 eldamp endcontact1h contact 0.0 0.0 100.0 eldamp endcontact2h contact 0.0 0.0 100.0 eldamp loadcontact1h contact 0.0 0.0 1000.0 eldamp loadcontact2h contact 0.0 0.0 1000.0 elmass loadspring1 beam 0.0 0.0 100.0 0.0 0.0 0.0 elmass loadspring2 beam 0.0 0.0 100.0 0.0 0.0 0.0 elmass rotspring1 beam 0.0 0.0 0.0 0.0 0.0 100.0 # Spring foundation BONCON GLOBAL 30001 1 REPEAT 2 1 BONCON GLOBAL 30001 2 REPEAT 2 1 BONCON GLOBAL 30001 3 REPEAT 2 1 BONCON GLOBAL 30001 4 REPEAT 2 1 BONCON GLOBAL 30001 5 REPEAT 2 1 BONCON GLOBAL 30001 6 REPEAT 2 1 # # # Spring contact foundation BONCON GLOBAL 31001 1 REPEAT 2 1 BONCON GLOBAL 31001 3 REPEAT 2 1 BONCON GLOBAL 31001 4 REPEAT 2 1 BONCON GLOBAL 31001 5 REPEAT 2 1 # End support Contact element foundation # BONCON GLOBAL 32001 1 REPEAT 4 1 BONCON GLOBAL 32001 2 REPEAT 4 1 BONCON GLOBAL 32001 3 REPEAT 4 1 BONCON GLOBAL 32001 4 REPEAT 4 1 BONCON GLOBAL 32001 5 REPEAT 4 1 BONCON GLOBAL 32001 6 REPEAT 2 1 # # -- # This group is to enable roller contact towards cable ELCON tube pipe31 tubemat 35001 1 2 repeat 90 1 1 # tube ELORIENT COORDINATES 35001 0.0 10000.0 0.0 35090 0.0 10000.0 0.0 ELPROP tube pipe 0.0725 0.001 1.0 0.1 2.0 0.2 0.1 0.1 0.145 0.145 0.5 # # name type poiss talfa tecond heatc beta ea eiy eiz git em gm MATERIAL tubemat linear 0.3 1.17e-5 50 800 0 1.0 1.0 1.0 1.0 210e9 80.8e9 # -- #-------------------------------------------------------------------------- #-------------------------------------------------------------------------- # # Power cable # # Then the cable input begins # All nocoor input # # no x y z Nocoor Coordinates 1 0.0 0.0 0.0 91 9.0 0.0 0.0 # Filler centre lines # no x0 y0 z0 b1 b2 b3 R node xcor theta Nocoor Polar 0.0 0.0 0.0 0.0 0.0 0.0 0.042 1001 0.0 0.00 1091 9.0 -29.6377 repeat 3 91 0.0 2.094 # Conductor centre lines # no x0 y0 z0 b1 b2 b3 R node xcor theta Nocoor Polar 0.0 0.0 0.0 0.0 0.0 0.0 0.0329 3001 0.0 -1.047 3091 9.0 -30.6847 repeat 3 91 0.0 2.094 # # Armor centre lines # no x0 y0 z0 b1 b2 b3 R node xcor theta Nocoor Polar 0.0 0.0 0.0 0.0 0.0 0.0 0.065 4001 0.0 0.00 4091 9.0 -27.4908 repeat 8 91 0.0 0.7853 # # Nocoor input of mid nodes - radial nodes # Inner PP # no x y z Nocoor Coordinates 23001 0.0 0.0 0.0 23090 9.0 0.0 0.0 # Outer pp # no x y z Nocoor Coordinates 25001 0.0 0.0 0.0 25090 9.0 0.0 0.0 # # fillers: dof 2 and 5 restrained all over the model # dof 1,4,6 restrained at the ends BONCON GLOBAL 1001 1 repeat 3 91 BONCON GLOBAL 1091 1 repeat 3 91 BONCON GLOBAL 1001 2 repeat 273 1 BONCON GLOBAL 1001 4 repeat 3 91 BONCON GLOBAL 1091 4 repeat 3 91 BONCON GLOBAL 1001 5 repeat 273 1 BONCON GLOBAL 1001 6 repeat 3 91 BONCON GLOBAL 1091 6 repeat 3 91 # BONCON GLOBAL 3001 1 repeat 3 91 BONCON GLOBAL 3091 1 repeat 3 91 BONCON GLOBAL 3001 2 repeat 273 1 BONCON GLOBAL 3001 4 repeat 3 91 BONCON GLOBAL 3091 4 repeat 3 91 BONCON GLOBAL 3001 5 repeat 273 1 BONCON GLOBAL 3001 6 repeat 3 91 BONCON GLOBAL 3091 6 repeat 3 91 # BONCON GLOBAL 4001 1 repeat 8 91 BONCON GLOBAL 4091 1 repeat 8 91 BONCON GLOBAL 4001 2 repeat 728 1 BONCON GLOBAL 4001 4 repeat 8 91 BONCON GLOBAL 4091 4 repeat 8 91 BONCON GLOBAL 4001 5 repeat 728 1 BONCON GLOBAL 4001 6 repeat 8 91 BONCON GLOBAL 4091 6 repeat 8 91 # # mandatory for hshear633 BONCON GLOBAL 23001 2 repeat 90 1 BONCON GLOBAL 23001 3 repeat 90 1 BONCON GLOBAL 25001 2 repeat 90 1 BONCON GLOBAL 25001 3 repeat 90 1 # #------------------------------------------------------------------------ # The conductor # # group elty material no n1 n2 n3 n4 Elcon conductor hshear353 conductormat 10001 1 2 3001 3002 10090 90 91 3090 3091 10091 1 2 3092 3093 10180 90 91 3181 3182 10181 1 2 3183 3184 10270 90 91 3272 3273 # # no x y z Elorient Coordinates 10001 0 1e3 0 10270 0 1e3 0 # # #ELPROP ELGRP SHEARHELIX GEOTYPE ri ro dry mass wet mass scale thims/phist thimd/ghist iop? ELPROP conductor shearhelix cylr 0.0274 0.0275 3.5 3.5 1.0 # # # Material data # Applying bflex2010_01.2bif to obtain relevant properties (assume no inistrain effect and layer friction) # name type poiss dens talfa tecond heatc ea ei ei gi em gm em2 MATERIAL conductormat linear 0.3 1.17e-5 50 800 0 23.0e6 220.0 220.0 1600.0 6.9e10 2.65e10 # #------------------------------------------------------------------------------------------------------------------ # Filler and filler contacts # # Elcon input # # # The PVC profiles # # group elty material no n1 n2 n3 n4 Elcon pvcfiller hshear353 pvcmat 1001 1 2 1001 1002 1090 90 91 1090 1091 1091 1 2 1092 1093 1180 90 91 1181 1182 1181 1 2 1183 1184 1270 90 91 1272 1273 # # Orient input # no x y z Elorient Coordinates 1001 0 1e3 0 1270 0 1e3 0 # # Element property input # # #ELPROP ELGRP SHEARHELIX GEOTYPE ri ro dry mass wet mass scale thims/phist thimd/ghist iop? #tag::elprop[] ELPROP pvcfiller shearhelix crossgeom general pvcprofile d d 1.0 #end::elprop[] # #tag::crossgeom[] CROSSGEOM pvcprofile general 0 0 S 0.00225 180 0 8 1 0 0 S 0.006 270 0 21 1 0 0 CI 280 310 0.015 28 1 0 0 CI 310 340 0.015 28 1 0 0 CI 340 360 0.035 43 1 0 0 CO 90 70 0.08 99 1 0 0 S 0.003 240 0 11 1 0 0 CI 57 95 0.0615 142 1 0 0 CO 30 0 0.017 31 1 0 0 CO 340 321 0.05 59 1 0 0 CO 219 200 0.05 59 1 0 0 CO 180 150 0.017 31 1 0 0 CI 85 123 0.0615 142 1 0 0 S 0.003 120 0 11 1 0 0 CO 110 90 0.08 99 1 0 0 CI 180 200 0.035 43 1 0 0 CI 200 230 0.015 28 1 0 0 CI 230 260 0.015 28 1 0 0 S 0.006 90 0 21 1 0 0 S 0.002234215 180 0 8 1 #end::crossgeom[] # #------------------------------------------------------------------------------ # Material data # # name type poiss talfa tecond heatc beta ea eiy eiz git em gm MATERIAL pvcmat elastic 0.32 1.0e3 1.12E-4 50 800 2.0E9 # #---------------------------------------------------------------------------------------------- #-------------------------------------------------------------------------------------------- #ELCON ELGR ELTY MATNAME ELID NOD1 [NOD2 NOD3 NOD4][REPEAT N NELINC NODINC] # Elcon pvccontact1 hcont455 contmat-2 61001 1 2 3001 3002 1001 1002 61002 1 2 3092 3093 1092 1093 61003 1 2 3183 3184 1183 1184 repeat 90 3 1 Elcon pvccontact2 hcont455 contmat-2 62001 1 2 3092 3093 1001 1002 62002 1 2 3183 3184 1092 1093 62003 1 2 3001 3002 1183 1184 repeat 90 3 1 Elcon conductorcontact hcont455 contmat-2 63001 1 2 3001 3002 3092 3093 63002 1 2 3092 3093 3183 3184 63003 1 2 3183 3184 3001 3002 repeat 90 3 1 # MATERIAL contmat-2 fricontact 6 0.25 0.25 1.e9 1.e9 2 0.0 1.0 1.0 -2.0 1.0e8 #-------------------------------------------------------------------------------------------------- # #CONTINT GRPNAME MASTERNAME SLAVENAMEI [IS1 ISN TX TY TZ MAXITIGAP] CONTINT pvccontact2 conductor pvcfiller 1001 1270 1.01 1.01 0 60 00 CONTINT pvccontact1 conductor pvcfiller 1001 1270 1.01 1.01 0 60 00 CONTINT conductorcontact conductor conductor 10001 10270 1.01 1.01 0 60 00 #-------------------------------------------------------------------------------------------------- #ELPROP ELGRP LAYERCONTACT GAP0 TTIME CNTR1 CNTR2 SCALEFACT[ KSHEAR ] ELPROP pvccontact1 layercontact D D 1.0 0.0 1.0 ELPROP pvccontact2 layercontact D D 1.0 0.0 1.0 ELPROP conductorcontact layercontact D D 1.0 0.0 1.0 #--------------------------------------------------------------------------- # Orient input elorient coordinates 61001 0.0 1.0e5 0.0 61270 0.0 1.0e5 0.0 elorient coordinates 62001 0.0 1.0e5 0.0 62270 0.0 1.0e5 0.0 elorient coordinates 63001 0.0 1.0e5 0.0 63270 0.0 1.0e5 0.0 #--------------------------------------------------------------------------------------------- # Innersheath # # ELGR ELTY MATNAME ELID NOD1 NOD2 NOD3 ELCON inneryarn HSHEAR363 yarnmat 23001 1 2 23001 REPEAT 90 1 1 # ELORIENT COORDINATES 23001 0.0 1.0 0.0 23090 0.0 1.0 0.0 # # ELGRP SHEARHELIX GEOTYPE W TH WD WS h-radius Alfa SCALEFACT ELPROP inneryarn shear2helix cylr 0.00 0.00075 d d 0.062 1 71.0 # # # name type pois density talfa tecond heatc em MATERIAL yarnmat ELASTIC 0.35 1000.0 1.1E-4 0.0 0.0 1300E6 # # contacts Elcon conductor-inneryarn hcont463 contmat-2 64001 3001 3002 23001 64002 3092 3093 23001 64003 3183 3184 23001 repeat 90 3 1 Elcon pvcfiller-inneryarn hcont463 contmat-2 65001 1001 1002 23001 65002 1092 1093 23001 65003 1183 1184 23001 repeat 90 3 1 # ELORIENT eulerangle 64001 0.0 0.0 0.0 64270 0.0 0.0 0.0 ELORIENT eulerangle 65001 0.0 0.0 0.0 65270 0.0 0.0 0.0 # ELPROP ELGRP LAYERCONTACT GAP0 CNTR1 CNTR2 CNTR3 SCALEFACT ELPROP conductor-inneryarn layercontact D D D 0 1.0 ELPROP pvcfiller-inneryarn layercontact D D D 0 1.0 # # CONTINT GRPNAME MASTERNAME SLAVENAMEI [IS1 ISN TX TY TZ MAXIT IGAP] CONTINT conductor-inneryarn conductor inneryarn 23001 23090 1.01 1.01 0 20 1 CONTINT pvcfiller-inneryarn pvcfiller inneryarn 23001 23090 1.01 1.01 0 20 1 # #------------------------------------------------------------------------------------------------------------------ # Armour and armour contact # # group elty material no n1 n2 n3 n4 Elcon armour hshear353 steelmat 4001 1 2 4001 4002 4008 1 2 4638 4639 repeat 90 8 1 # # no x y z Elorient Coordinates 4001 0 1e3 0 4720 0 1e3 0 # # #ELPROP ELGRP SHEARHELIX GEOTYPE ri ro dry mass wet mass scale thims/phist thimd/ghist iop? ELPROP armour shearhelix cylr 0.0 0.003 d d 62.0/8.0 100 100 1 # # name type poiss dens talfa tecond heatc em gm em2 MATERIAL steelmat elastic 0.3 7.85e3 1.17E-5 50 800 2.1E11 # Elcon inneryarn-armour hcont463 contmat-3 66001 23001 4001 4002 66008 23001 4638 4639 repeat 90 8 1 # ELORIENT eulerangle 66001 0.0 0.0 0.0 66720 0.0 0.0 0.0 # ELPROP ELGRP LAYERCONTACT GAP0 CNTR1 CNTR2 CNTR3 SCALEFACT ELPROP inneryarn-armour layercontact D D D 0 62.0/8.0 # # CONTINT GRPNAME MASTERNAME SLAVENAMEI [IS1 ISN TX TY TZ MAXIT IGAP] CONTINT inneryarn-armour inneryarn armour 1 3 1.01 1.01 0 20 1 # #MATERIAL MNAME FRICVISC KSTICK KTRANS KSURF MU C1 C2 A1 MATERIAL contmat-3 FRICVISC 5e8 D 4e8 0.35 0.0 0.0 0.0 # # Lateral contact in armour layer # Elcon layercontact1 hcont454 layercontactmat1 90001 1 2 4001 4002 4092 4093 90002 1 2 4092 4093 4183 4184 90003 1 2 4183 4184 4274 4275 90004 1 2 4274 4275 4365 4366 90005 1 2 4365 4366 4456 4457 90006 1 2 4456 4457 4547 4548 90007 1 2 4547 4548 4638 4639 90008 1 2 4638 4639 4001 4002 repeat 90 8 1 Elorient Coordinates 90001 0 1e3 0 90720 0 1e3 0 # ELPROP layercontact1 layercontact D D 1.0 0 62./8.0 CONTINT layercontact1 armour armour 1 3 1.01 1.01 0 20 1 # # MATERIAL MNAME FRICONTACT TYPE MUS MUD KEL1 KEL2 FRAC KDYN C1 C2 DIM KSURF MATERIAL layercontactmat1 fricontact 6 0.35 0.35 1e9 1e9 2 0.0 1.0 1.0 -1.0 2e10 # #------------------------------------------------------------------------------------- # outer yarn layers # # ELGR ELTY MATNAME ELID NOD1 NOD2 NOD3 ELCON outeryarn HSHEAR363 yarnmat 25001 1 2 25001 REPEAT 90 1 1 ELCON outeryarn2 HSHEAR363 yarnmat 26001 1 2 25001 REPEAT 90 1 1 # ELORIENT COORDINATES 25001 0.0 1.0 0.0 25090 0.0 1.0 0.0 ELORIENT COORDINATES 26001 0.0 1.0 0.0 26090 0.0 1.0 0.0 # # ELGRP SHEARHELIX GEOTYPE W TH WD WS SCALEFACT ELPROP outeryarn shear2helix cylr 0.0 0.00125 d d 0.068 1.06 72.0 ELPROP outeryarn2 shear2helix cylr 0.0 0.00125 d d 0.068 -1.06 73.0 # Elcon armour-outeryarn hcont463 contmat-3 67001 4001 4002 25001 67008 4638 4639 25001 repeat 90 8 1 # ELORIENT eulerangle 67001 0.0 0.0 0.0 67720 0.0 0.0 0.0 # ELPROP ELGRP LAYERCONTACT GAP0 CNTR1 CNTR2 CNTR3 SCALEFACT ELPROP armour-outeryarn layercontact D D D 0 62.0/8.0 # # CONTINT GRPNAME MASTERNAME SLAVENAMEI [IS1 ISN TX TY TZ MAXIT IGAP] CONTINT armour-outeryarn armour outeryarn 1 3 1.01 1.01 0 20 1 # # #---------------------------------------------------------------------------------------------------------------------- # # Global boundary conditions and load application # # fixed in axial and twist at mid node BONCON GLOBAL 46 1 BONCON GLOBAL 46 4 # # # this is just for a short startup of the model TIMECO 0.0002 0.0002 0.0002 100.0 dynamic auto none disp 20 5 1e-5 ## the next two lines is for a full bend cycle #TIMECO 1.0 0.0002 0.20 100.0 dynamic auto none disp 20 5 1e-5 #TIMECO 40.0 0.0001 0.2 100.0 dynamic auto none disp 20 5 1e-5 # # --- # loads # PELOAD 100 100 # # prestress yarn and tensile armour # INISTR HIST DIR IEL1 ISTR1 [IEL2 ISTR2] # hshear363 inner yarn INISTR 400 1 23001 1.0 23090 1.0 # hshear363 outer yarn INISTR 400 1 25001 1.0 25090 1.0 # hshear353 armour INISTR 410 1 1001 1.0 1720 1.0 # # tension in both cable ends (remember fixed at mid point) CLOAD 300 1 91 10000.00 CLOAD 300 1 1 -10000.00 # # Spring motion nistr applied to element to push the rig frame # vertical motion INISTR 500 2 30001 1.0 30002 1.0 # tilting the frames INISTR 500 6 30003 0.31 30003 0.31 INISTR 500 6 30004 -0.31 30004 -0.31 INISTR 500 6 30001 0.21 30001 0.21 INISTR 500 6 30002 -0.21 30002 -0.21 # force # drymass THIST 100 0 1.0 1.0 1.0 # # tension THIST 300 0 0.0 1.0 0.01 10.0 0.001 # # prestress to 13 MPa THIST 400 0.0 0.01 # prestress to 30 MPa THIST 410 0.0 1.5e-4 # THIST_R 500 0.0 1.0 rampcos 0.0 1.0 10.0 rampcos 0.58 10.0 25.0 rampcos -0.58 25.0 40.0 rampcos 0.58