*Heading

** MATERIALS
** 
*Material, name=Stahl
** 212000
*Conductivity
42.,
*Density
 7.85e-09,
*Elastic
212000., 0.3
*Expansion
 1.2e-05,
*Specific Heat
 4.4e+08,
** 
** INTERACTION PROPERTIES
** 
*Surface Interaction, name=Reiblos
1.,
*Friction
0.,
*Surface Behavior, penalty
10000.
*Gap Conductance, pressure
 0.,  0.
42.,100.
** 
** PHYSICAL CONSTANTS
** 
*Physical Constants, absolute zero=-273.15
** 
** BOUNDARY CONDITIONS
** 
** Name: Einspann Type: Symmetry/Antisymmetry/Encastre
*Boundary
_PickedSet30, YSYMM
** 
** PREDEFINED FIELDS
** 
** Name: Predefined Field-1   Type: Temperature
*Initial Conditions, type=TEMPERATURE
_PickedSet29, 20.
** 
** INTERACTIONS
** 
** Interaction: Welle/Nabe
*Contact Pair, interaction=Reiblos, small sliding, type=SURFACE TO SURFACE, adjust=0.0
Nabe-1.Kontakt_Nabe, Welle-1.Kontakt_Welle
** ----------------------------------------------------------------
** 
** STEP: einspann
** 
*Step, name=einspann, nlgeom=YES
*Coupled Temperature-Displacement, creep=none, deltmx=1.
1., 1., 1e-05, 1.
** 
** INTERACTIONS
** 
** Interaction: Int-3
*Sfilm
_PickedSurf33, F, 20., 0.01
** 
** OUTPUT REQUESTS
** 
*Restart, write, frequency=0
** 
** FIELD OUTPUT: F-Output-1
** 
*Output, field
*Node Output
NT, U
*Element Output, directions=YES
MISESMAX, PS, S, TEMP
*Radiation Output
FTEMP, 
** 
** HISTORY OUTPUT: H-Output-1
** 
*Output, history
*Contact Output
CSTRESS, HFLA
*Radiation Output
FTEMP, 
*End Step
** ----------------------------------------------------------------
** 
** STEP: pressung
** 
*Step, name=pressung, nlgeom=YES
*Coupled Temperature-Displacement, creep=none, deltmx=1.
1., 1., 1e-05, 1.
** 
** INTERACTIONS
** 
** Interaction: Welle/Nabe
*Contact Interference, amplitude=Rump_up
Nabe-1.Kontakt_Nabe, Welle-1.Kontakt_Welle, -0.08, 
** 
** OUTPUT REQUESTS
** 
*Restart, write, frequency=0
** 
** FIELD OUTPUT: F-Output-1
** 
*Output, field
*Node Output
NT, U
*Element Output, directions=YES
MISESMAX, PS, S, TEMP
*Radiation Output
FTEMP, 
** 
** HISTORY OUTPUT: H-Output-1
** 
*Output, history
*Contact Output
CSTRESS, HFLA
*Radiation Output
FTEMP, 
*End Step
** ----------------------------------------------------------------
** 
** STEP: temperatur_ein
** 
*Step, name=temperatur_ein, nlgeom=YES, inc=6
*Coupled Temperature-Displacement, creep=none
10., 60., 
** 
** BOUNDARY CONDITIONS
** 
** Name: Temperaturbelastung Type: Temperature
*Boundary, amplitude=Temp_Rump_1min
Welle-1.Temp, 11, 11, 180.
** 
** INTERACTIONS
** 
** Interaction: Welle/Nabe
*Contact Interference, amplitude=konst
Nabe-1.Kontakt_Nabe, Welle-1.Kontakt_Welle, -0.08, 
** 
** OUTPUT REQUESTS
** 
*Restart, write, frequency=0
** 
** FIELD OUTPUT: F-Output-1
** 
*Output, field
*Node Output
NT, U
*Element Output, directions=YES
MISESMAX, PS, S, TEMP
*Radiation Output
FTEMP, 
** 
** HISTORY OUTPUT: H-Output-1
** 
*Output, history
*Contact Output
CSTRESS, HFLA
*Radiation Output
FTEMP, 
*End Step
** ----------------------------------------------------------------
** 
** STEP: temperatur_halten
** 
*Step, name=temperatur_halten, nlgeom=YES, inc=42
*Coupled Temperature-Displacement, creep=none
10., 420., 
** 
** BOUNDARY CONDITIONS
** 
** Name: Temperaturbelastung Type: Temperature
*Boundary, amplitude=konst
Welle-1.Temp, 11, 11, 180.
** 
** INTERACTIONS
** 
** Interaction: Welle/Nabe
*Contact Interference, amplitude=konst
Nabe-1.Kontakt_Nabe, Welle-1.Kontakt_Welle, -0.08, 
** 
** OUTPUT REQUESTS
** 
*Restart, write, frequency=0
** 
** FIELD OUTPUT: F-Output-1
** 
*Output, field
*Node Output
NT, U
*Element Output, directions=YES
MISESMAX, PS, S, TEMP
*Radiation Output
FTEMP, 
** 
** HISTORY OUTPUT: H-Output-1
** 
*Output, history
*Contact Output
CSTRESS, HFLA
*Radiation Output
FTEMP, 
*End Step
** ----------------------------------------------------------------
** 
** STEP: temperatur_aus
** 
*Step, name=temperatur_aus, nlgeom=YES, inc=6
*Coupled Temperature-Displacement, creep=none
10., 60., 
** 
** BOUNDARY CONDITIONS
** 
** Name: Temperaturbelastung Type: Temperature
*Boundary, amplitude=Temp_rump_down_1min
Welle-1.Temp, 11, 11, 160.
** 
** OUTPUT REQUESTS
** 
*Restart, write, frequency=0
** 
** FIELD OUTPUT: F-Output-1
** 
*Output, field
*Node Output
NT, U
*Element Output, directions=YES
MISESMAX, PS, S, TEMP
*Radiation Output
FTEMP, 
** 
** HISTORY OUTPUT: H-Output-1
** 
*Output, history
*Contact Output
CSTRESS, HFLA
*Radiation Output
FTEMP, 
*End Step
** ----------------------------------------------------------------
** 
** STEP: pressung_ohne temperatur
** 
*Step, name="pressung_ohne temperatur", nlgeom=YES
*Coupled Temperature-Displacement, creep=none
600., 36000., 
** 
** OUTPUT REQUESTS
** 
*Restart, write, frequency=0
** 
** FIELD OUTPUT: F-Output-1
** 
*Output, field
*Node Output
NT, U
*Element Output, directions=YES
MISESMAX, PS, S, TEMP
*Radiation Output
FTEMP, 
** 
** HISTORY OUTPUT: H-Output-1
** 
*Output, history
*Contact Output
CSTRESS, HFLA
*Radiation Output
FTEMP, 
*End Step