#DEFINE PROJECT = Special_Profile_Test_v02 +PROG AQUA urs:1.1 $ Materials HEAD Materials PAGE UNII 0 $NORM 'DIN' '1045-1' NORM 'US' 'AISC-2005' UNIT 0 $ Materialien STEE NO 10 TYPE A CLAS 992 $ Beam Elements STEE NO 20 TYPE Y FY 1100 FT 1450 ES 130000 GAM 78.5 ALFA 16*10e-6 TITL "1450C" $ Cable Elements MATE NO 100 E 2900 MUE 0.200 G 130 K 278 GAM 12 GAMA 2 ALFA 0.0 E90 1800 M90 0.200 SPM 1.000 TITL "PTFE Membrane Material" $ Membrane Elements NMAT NO 100 TYPE MEMB P2 0 P3 140 P4 120 END +PROG AQUA urs:1 $ Sections HEAD PAGE UNII 0 CTRL REST 1 CTRL SDIV 0 VAL2 0.005 $ Required for Special Profile $ Querschnitte ------------------------------------------------------------------------------------------------ $$ Standard W-Profile $PROF NO 10 TYPE W 12 72 MNO 10 $ Special Profile - Half-Closed W-Profile SECT NO 10 MNO 10 TITL "Half-Closed W-Profile" PROF NO 1 TYPE W 12 72 DTYP T PLAT NO 2 0.3048/2 -0.2954/2 0.3048/2 0.2954/2 0.0109 SECT 0 $$ Standard W-Profile (Interpolated Sections) $PROF NO 10 TYPE W 12 72 MNO 10 $PROF NO 11 TYPE W 21 147 MNO 10 $ Cable Cross-Section (Effective Steel Cross-Section) SCIT NO 20 D .061 MNO 20 $ Cable d = 65.0 VVS-3 GALFAN END +PROG SOFIMSHC urs:2 HEAD PAGE UNII 0 SYST 3D GDIR NEGZ GDIV 10000 CTRL INIT 7 CTRL TOLG 0.001000 CTRL MESH 1 CTRL HMIN 1.0000 CTRL TOPO XFLG 0 CTRL NODE 1000 SLN 1001 GRP 910 SNO - DRX 0.000000 0.000000 -1.000000 SLNB X1 0.00000000 0.00000000 -0.20000000 X2 7.50000000 0.00000000 -0.20000000 SLNS GRP 900 FIX LPXPYPZMYMZ REFT >SLN 1002 SLN 1002 GRP 10 SNO "10" DRX 0.000000 0.000000 -1.000000 STYP B SLNB X1 0.00000000 0.00000000 0.00000000 X2 7.50000000 0.00000000 0.00000000 SLN 1003 GRP 910 SNO - DRX 0.000000 0.000000 -1.000000 SLNB X1 0.00000000 10.00000000 -0.20000000 X2 7.50000000 10.00000000 -0.20000000 SLNS GRP 900 FIX LPXPYPZMYMZ REFT >SLN 1004 SLN 1004 GRP 10 SNO "10" DRX 0.000000 0.000000 1.000000 STYP B SLNB X1 0.00000000 10.00000000 0.00000000 X2 7.50000000 10.00000000 0.00000000 SPT 1 X 0.00000000 0.00000000 0.00000000 SX 1.000000 0.000000 0.000000 NX 0.000000 0.000000 1.000000 FIX PXPYPZMXMZ SPT 2 X 7.50000000 0.00000000 0.00000000 SX 1.000000 0.000000 0.000000 NX 0.000000 0.000000 1.000000 FIX PXPYPZMXMZ SPT 3 X 0.00000000 10.00000000 0.00000000 SX 1.000000 0.000000 0.000000 NX 0.000000 0.000000 1.000000 FIX PXPYPZMXMZ SPT 4 X 7.50000000 10.00000000 0.00000000 SX 1.000000 0.000000 0.000000 NX 0.000000 0.000000 1.000000 FIX PXPYPZMXMZ SPT 5 X 0.00000000 5.00000000 -2.20000000 SX 1.000000 0.000000 0.000000 NX 0.000000 0.000000 1.000000 SPTP PP GRP 920 SPT 6 X 7.50000000 5.00000000 -2.20000000 SX 1.000000 0.000000 0.000000 NX 0.000000 0.000000 1.000000 SPTP PP GRP 920 SAR - GRP 100 T 0.001000 MNO 100 DRX 0.000000 1.000000 0.000000 NX 0.000000 0.371391 0.928477 MCTL REGM NRA 2 SARB OUT SLNN S 0.00000000 DEGR 3 SLNN S 0.00000000 SLNN S 0.00000000 SLNN S 5.38516481 SLNN S 5.38516481 SLNN S 5.38516481 SLNP X 0.00000000 0.00000000 -0.20000000 TYPE NURB SLNP X 0.00000000 1.66666667 -0.86666667 SLNP X 0.00000000 3.33333333 -1.53333333 SLNP X 0.00000000 5.00000000 -2.20000000 SARB OUT SLNB X1 0.00000000 5.00000000 -2.20000000 X2 7.50000000 5.00000000 -2.20000000 SARB OUT SLNN S 0.00000000 DEGR 3 SLNN S 0.00000000 SLNN S 0.00000000 SLNN S 5.38516481 SLNN S 5.38516481 SLNN S 5.38516481 SLNP X 7.50000000 5.00000000 -2.20000000 TYPE NURB SLNP X 7.50000000 3.33333333 -1.53333333 SLNP X 7.50000000 1.66666667 -0.86666667 SLNP X 7.50000000 0.00000000 -0.20000000 SARB OUT SLNB X1 7.50000000 0.00000000 -0.20000000 X2 0.00000000 0.00000000 -0.20000000 SAR - GRP 100 T 0.001000 MNO 100 DRX 0.000000 1.000000 0.000000 NX 0.000000 -0.371391 0.928477 MCTL REGM NRA 2 SARB OUT SLNN S 0.00000000 DEGR 3 SLNN S 0.00000000 SLNN S 0.00000000 SLNN S 5.38516481 SLNN S 5.38516481 SLNN S 5.38516481 SLNP X 0.00000000 10.00000000 -0.20000000 TYPE NURB SLNP X 0.00000000 8.33333333 -0.86666667 SLNP X 0.00000000 6.66666667 -1.53333333 SLNP X 0.00000000 5.00000000 -2.20000000 SARB OUT SLNB X1 0.00000000 5.00000000 -2.20000000 X2 7.50000000 5.00000000 -2.20000000 SARB OUT SLNN S 0.00000000 DEGR 3 SLNN S 0.00000000 SLNN S 0.00000000 SLNN S 5.38516481 SLNN S 5.38516481 SLNN S 5.38516481 SLNP X 7.50000000 5.00000000 -2.20000000 TYPE NURB SLNP X 7.50000000 6.66666667 -1.53333333 SLNP X 7.50000000 8.33333333 -0.86666667 SLNP X 7.50000000 10.00000000 -0.20000000 SARB OUT SLNB X1 7.50000000 10.00000000 -0.20000000 X2 0.00000000 10.00000000 -0.20000000 SLN - GRP 20 SNO 20 DRX 0.000000 0.000000 -1.000000 STYP CEE SLNB X1 0.00000000 5.00000000 -2.20000000 X2 7.50000000 5.00000000 -2.20000000 END -PROG AQUA urs:5 HEAD INTE 0 4 END +PROG SOFILOAD URS:8 HEAD Load Variable Definition PAGE UNII 0 $ Dead Load Variables ------------------------------------------------------------- #DEFINE D = 2.4 $ Additional Uniform Dead Load [kN/m] $ Live Load Variables ------------------------------------------------------------- #DEFINE L = 0.5 $ Uniform Live Load [kN/m^2] $ Wind Load Variables ------------------------------------------------------------- #DEFINE W = 0.9 $ Wind Load [kN/m^2] $ Temperature Load Variables ------------------------------------------------------ #DEFINE TPos = 45 $ Positive Temp. Change [K] #DEFINE TNeg = -30 $ Negative Temp. Change [K] $ Additional Dead Load ------------------------------------------------------------------- HEAD LC 10 - Additional Dead Load LC 10 TYPE NONE FACT 1.00 DLX 0 DLY 0 DLZ 0 TITL 'Additional Dead Load' BEAM GRP 10 TYPE PZZ PA -$(D) $ Live Load ----------------------------------------------------------------------------- HEAD LC 20 - Live Load LC 20 TYPE NONE FACT 1.00 DLX 0 DLY 0 DLZ 0 TITL 'Live Load' QUAD GRP 100 TYPE PZZ P -$(L) $ Wind Load ------------------------------------------------------------------------------ HEAD LC 30 - Wind Pressure LC 30 TYPE NONE FACT 1.00 DLX 0 DLY 0 DLZ 0 TITL 'Wind Pressure' QUAD GRP 100 TYPE PZ P $(W) HEAD LC 31 - Wind Suction LC 31 TYPE NONE FACT 1.00 DLX 0 DLY 0 DLZ 0 TITL 'Wind Suction' QUAD GRP 100 TYPE PZ P -$(W) $ Temperature Load ----------------------------------------------------------------------- HEAD LC 40 - Pos. Temperature Change LC 40 TYPE NONE FACT 1.00 DLX 0 DLY 0 DLZ 0 TITL 'Pos. Temperature Change' BEAM GRP 10 TYPE DT $(TPos) $CABL GRP 20 TYPE DT $(TPos) HEAD LC 41 - Neg. Temperature Change LC 41 TYPE NONE FACT 1.00 DLX 0 DLY 0 DLZ 0 TITL 'Neg. Temperature Change' BEAM GRP 10 TYPE DT $(TNeg) CABL GRP 20 TYPE DT $(TNeg) END $ 200 LF SLS --------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:14.6 #DEFINE PLC200 = 1.0 $ Load Combination Coefficient for PLC 200 #DEFINE PLC201 = 0.6 $ Load Combination Coefficient for PLC 201 #DEFINE EQxAcc = 0.240 $ Earthquake Acceleration in the X-Direction #DEFINE EQyAcc = 0.225 $ Earthquake Acceleration in the Y-Direction #define nX = 1.0 #define nY = 1.0 #define nXCable = 1.0 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 200 1.0DL CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) $NMAT YES GRP - FACS 1 $ Membrane Factors GRP 100 FACS 1.00 PREX $(PLC200)*1.00*$(nX) PREY $(PLC200)*1.00*$(nY) $ Cable Factors GRP 20 FACS 1.00 PREX $(PLC200)*10.0*$(nXCable) LC 200 DLZ $(PLC200) TITL '1.0DL' LCC 10 $(PLC200) END $--------------------------------------------------------------------- +PROG ASE urs:3 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 201 0.6DL CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) $NMAT YES GRP - FACS 1 $ Membrane Factors GRP 100 FACS 1.00 PREX $(PLC201)*1.00*$(nX) PREY $(PLC201)*1.00*$(nY) $ Cable Factors GRP 20 FACS 1.00 PREX $(PLC201)*10.0*$(nXCable) LC 201 DLZ $(PLC201) TITL '0.6DL' LCC 10 $(PLC201) END $--------------------------------------------------------------------- +PROG ASE urs:40 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 220 1.0DL+1.0LL CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 200 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 220 DLZ $(PLC200) TITL '1.0DL+1.0LL' LCC 10 $(PLC200) LCC 20 1.0 END $ Wind 0° ----------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:18.9 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 230 1.0DL+1.0WP CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 200 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 230 DLZ $(PLC200) TITL '1.0DL+1.0WP' LCC 10 $(PLC200) LCC 30 1.0 END +PROG ASE urs:4 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 231 0.6DL+1.0WS CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 201 GRP - FACS 1 LC 231 DLZ $(PLC201) TITL '0.6DL+1.0WS' LCC 10 $(PLC201) LCC 31 1.0 END $ Temperature -------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:34 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 240 1.0DL+1.0LL+1.0Tpos CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 200 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 240 DLZ $(PLC200) TITL '1.0DL+1.0LL+1.0Tpos' LCC 10 $(PLC200) LCC 20 1.0 LCC 40 1.0 END $--------------------------------------------------------------------- +PROG ASE urs:36 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 241 1.0DL+1.0LL+1.0Tneg CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 200 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 241 DLZ $(PLC200) TITL '1.0DL+1.0LL+1.0Tneg' LCC 10 $(PLC200) LCC 20 1.0 LCC 41 1.0 END $ Earthquake --------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:26 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 250 1.0DL+0.75LL+0.525EQx CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 200 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 250 DLZ $(PLC200) DLX 0.525*$(EQxAcc) TITL '1.0DL+0.75LL+0.525EQx ' LCC 10 $(PLC200) LCC 20 0.75 END $--------------------------------------------------------------------- +PROG ASE urs:27 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 251 1.0DL+0.75LL+0.525EQy CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 200 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 251 DLZ $(PLC200) DLY 0.525*$(EQyAcc) TITL '1.0DL+0.75LL+0.525EQy' LCC 10 $(PLC200) LCC 20 0.75 END $ 300 LF ULS --------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:38 #DEFINE PLC300 = 1.4 $ Load Combination Coefficient for PLC 300 #DEFINE PLC301 = 0.9 $ Load Combination Coefficient for PLC 301 #DEFINE PLC302 = (0.75*1.4) $ Load Combination Coefficient for PLC 302 #DEFINE EQxAcc = (1.4*0.240) $ Earthquake Acceleration in the X-Direction (40% Increase for ULS) #DEFINE EQyAcc = (1.4*0.225) $ Earthquake Acceleration in the Y-Direction (40% Increase for ULS) #define nX = 1.0 #define nY = 1.0 #define nXCable = 1.0 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 300 1.4DL CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) $NMAT YES GRP - FACS 1 $ Membrane Factors GRP 100 FACS 1.00 PREX $(PLC300)*1.00*$(nX) PREY $(PLC300)*1.00*$(nY) $ Cable Factors GRP 20 FACS 1.00 PREX $(PLC300)*10.0*$(nXCable) LC 300 DLZ $(PLC300) TITL '1.4DL' LCC 10 $(PLC300) END $--------------------------------------------------------------------- +PROG ASE urs:39 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 301 0.9DL CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) $NMAT YES GRP - FACS 1 $ Membrane Factors GRP 100 FACS 1.00 PREX $(PLC301)*1.00*$(nX) PREY $(PLC301)*1.00*$(nY) $ Cable Factors GRP 20 FACS 1.00 PREX $(PLC301)*10.0*$(nXCable) LC 301 DLZ $(PLC301) TITL '0.9DL' LCC 10 $(PLC301) END $--------------------------------------------------------------------- +PROG ASE urs:41 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 302 0.75(1.4DL) CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) $NMAT YES GRP - FACS 1 $ Membrane Factors GRP 100 FACS 1.00 PREX $(PLC302)*1.00*$(nX) PREY $(PLC302)*1.00*$(nY) $ Cable Factors GRP 20 FACS 1.00 PREX $(PLC302)*10.0*$(nXCable) LC 302 DLZ $(PLC302) TITL '0.75(1.4DL)' LCC 10 $(PLC302) END $--------------------------------------------------------------------- +PROG ASE urs:42 #DEFINE iteration= 150 $ Iterations #DEFINE fmax= 0.6 $ Load Increment HEAD LC 320 1.4DL+1.7LL CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 300 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 320 DLZ $(PLC300) TITL '1.4DL+1.7LL' LCC 10 $(PLC300) LCC 20 1.7 END $ Wind 0° ----------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:44 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 330 0.9DL+1.6WP CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 301 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 330 DLZ $(PLC301) TITL '0.9DL+1.6WP' LCC 10 $(PLC301) LCC 30 1.6 END +PROG ASE urs:6 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 331 0.75(1.4DL)+1.6WS CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 302 GRP - FACS 1 LC 331 DLZ $(PLC302) TITL '0.75(1.4DL)+1.6WS' LCC 10 $(PLC302) LCC 31 1.6 END $ Temperature -------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:72 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 340 1.4DL+1.4Tpos CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 300 GRP - FACS 1 LC 340 DLZ $(PLC300) TITL '1.4DL+1.4Tpos' LCC 10 $(PLC300) LCC 40 1.4 END $--------------------------------------------------------------------- +PROG ASE urs:73 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 341 1.4DL+1.4Tneg CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 300 GRP - FACS 1 LC 341 DLZ $(PLC300) TITL '1.4DL+1.4Tneg' LCC 10 $(PLC300) LCC 41 1.4 END $ Earthquake --------------------------------------------------------- $--------------------------------------------------------------------- +PROG ASE urs:62 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 350 0.75(1.4DL+1.7LL)+1.0EQx CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 302 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 350 DLZ $(PLC302) DLX 1.0*$(EQxAcc) TITL '0.75(1.4DL+1.7LL)+1.0EQx' LCC 10 $(PLC302) LCC 20 0.75*1.7 END $--------------------------------------------------------------------- +PROG ASE urs:63 #DEFINE iteration= 200 $ Iterations #DEFINE fmax= 0.5 $ Load Increment HEAD LC 351 0.75(1.4DL+1.7LL)+1.0EQy CTRL CABL 0 $ Without Inner Cable Sag CTRL ITER 3 v2 1 SYST PROB TH3 ITER $(iteration) FMAX $(fmax) PLC 302 GRP - FACS 1 GRP 20 VAL OFF GRP 920 VAL OFF LC 351 DLZ $(PLC302) DLY 1.0*$(EQyAcc) TITL '0.75(1.4DL+1.7LL)+1.0EQy' LCC 10 $(PLC302) LCC 20 0.75*1.7 END +PROG AQB urs:18.1 $ Stahl - Querschnittsnachweise (Stäbe) HEAD Stahl - Querschnittsnachweise PAGE UNII 0 LANO 1 $STAB GRP 3,4,5 TYP stab BETA 1.0 BETS 1.0 $ Beta = Knicklängenbeiwert $ Bets = 2. Knicklängenbeiwert für Querbiegung LC 3?? $ alle 300er Lastfälle werden berücksichtigt COMB GMAX LCST 901 TITL 'Max' STRE E $ E = nur Ermittlung elast. Max-Spannungen und Vergleichsspannung $ B = Ausnutzungsgrad für vereinfachte Interaktion $ C = Ausnutzungsgrad aus $ -Querschnittsklasse 1 und 2: Interaktion nach EC 3 oder EC 9 $ -Querschnittsklasse 3: Vergleich Spannungen mit fyd END +PROG AQB URS:22.1 PAGE -1 999999 1 LANO 0 HEAD Bemessung Stäbe ECHO FORC NO ECHO STRE NO ECHO DESI YES BEAM GRP 10 TYPE BEAM LC 300 301 ; 302 320 330 340 ; 341 350 ; 351 STRE SMOD E STYP F END