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***********************************************************************
*HEADING
FW05 Thermal
***********************************************************************
**
*include, input=all.msh
** ZYLINDERSYSTEM FUER DIE KNOTENVERSCHIEBUNGEN
*TRANSFORM, NSET=Nall, TYPE=C
0.,0.,0., 1.,0.,0.
***********************************************************************
**CYCLIC SYMMETRY
*include, input=CYC1.equ
***********************************************************************
***********************************************************************
**RANDBEDINGUNGEN
***********************************************************************
*BOUNDARY
*include, input=SPC_23.bou
**MATERIALPARAMETER:
*************************************************
** MATERIALDATEN
** (T IN CELSIUS, REST IM N,MM,S-SYSTEM, DH.:
** E-MODUL IN N/MM**2, ALPHA IN 1/K, RHO IN
** 10**3*KG/MM**3, ZEIT IN S, VERSCHIEB. IN
** MM, SPANNG. IN MPA)
*************************************************
*MATERIAL,NAME=NI
*ELASTIC,TYPE=ISO
2.0E5,0.3,291.
1.5E5,0.3,1200.
*EXPANSION,TYPE=ISO,ZERO=293.
13.E-6,291.
16.E-6,1200.
*DENSITY
8.E-9
** CONDUCTIVITY: T*mm/s3/K
*CONDUCTIVITY
10.,273.
18.,873.
27.,1373.
** Nmm/T/K
*SPECIFIC HEAT
450.e6,273.
580.e6,873.
710.e6,1373.
** N/mm/K4
*PHYSICAL CONSTANTS,ABSOLUTE ZERO=0.,STEFAN BOLTZMANN=5.669E-11
***********************************************************************
**ZUORDNUNG DER ELEMENTE ZU MATERIALIEN:
*SOLID SECTION,ELSET=Eall,MATERIAL=NI
***********************************************************************
**
*INITIAL CONDITIONS, TYPE=TEMPERATURE
Nall, 293.15
**
***********************************************************************
** BELASTUNG UND AUSZUGEBENDE GROESSEN **
** fuer n=110000/min
***********************************************************************
*AMPLITUDE, NAME=BOU_ACC
1.00000e-01, 2.93150e+02
2.00000e-01, 2.93150e+02
3.50000e-01, 2.93150e+02
5.75000e-01, 2.93150e+02
9.12500e-01, 2.93154e+02
1.41875e+00, 2.93178e+02
2.17812e+00, 2.93334e+02
3.31719e+00, 2.94154e+02
5.02578e+00, 2.97439e+02
7.58867e+00, 3.09841e+02
1.14330e+01, 3.46508e+02
1.71995e+01, 4.25064e+02
2.58493e+01, 5.46107e+02
3.88239e+01, 6.83366e+02
5.82859e+01, 8.01475e+02
8.74788e+01, 8.79731e+02
1.20000e+02, 9.15057e+02
*AMPLITUDE, NAME=BOU_DEC
0.,9.15057e+02,60.,700.,1000.,2.93150e+02
*AMPLITUDE, NAME=FILM_ACC
0., 0.27,3.,1.08,1000.,1.08
*AMPLITUDE, NAME=ALPHA_ACC
0., 0.1,3.,1.,1000.,1.
*AMPLITUDE, NAME=FILM_DEC
0.,1.08,3.,0.27,1000.,0.27
*AMPLITUDE, NAME=ALPHA_DEC
0.,1.,3.,0.5,1000.,0.1
*AMPLITUDE, NAME=RAD_ACC
0.,0.55,6.,1.,1000.,1.
*AMPLITUDE, NAME=RAD_DEC
0.,1.,30.,0.55,1000.,0.55
**
*STEP, INC=1000
*HEAT TRANSFER
1.e-1,120.
*BOUNDARY, AMPLITUDE=BOU_ACC
*include, input=SPCT_t1..bou
*FILM, AMPLITUDE=FILM_ACC, FILM AMPLITUDE=ALPHA_ACC
*include, input=all.flm
*RADIATE, AMPLITUDE=RAD_ACC, RADIATION AMPLITUDE=RAD_ACC
*include, input=all.rad
*NODE PRINT,FREQUENCY=0
*EL PRINT,FREQUENCY=0
*NODE FILE
NT
*END STEP
*STEP, INC=1000
*HEAT TRANSFER
1.e-1,120.
*BOUNDARY, AMPLITUDE=BOU_DEC
*include, input=SPCT_t1..bou
*FILM, AMPLITUDE=FILM_DEC, FILM AMPLITUDE=ALPHA_DEC
*include, input=all.flm
*RADIATE, AMPLITUDE=RAD_DEC, RADIATION AMPLITUDE=RAD_DEC
*include, input=all.rad
*NODE PRINT,FREQUENCY=0
*EL PRINT,FREQUENCY=0
*NODE FILE
NT
*END STEP
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