*Heading
: Thermally Coupled Contact, Finite Sliding Contact With Interface Conductivity, Deformable
*Restart, Write, F=2
*Node,Nset=All
 1,1.,1.
 7,1.,7.
 11,2.,1.
 17,2.,7.
 101,2.,3.
 105,2.,5.
 111,3.,3.
 115,3.,5.
*Ngen
 1,7,1
 11,17,1
 101,105,1
 111,115,1
*Nset,Nset=Bot,Gen
 1,7,1
*Nset,Nset=Top,Gen
 111,115,1
**
*Element,Type=cgax4rt,Elset=Dead
 1,3,1,11,13
 3,7,5,15,17
*Solid Section,Elset=Dead,Material=Dead
*Material,Name=Dead
*Elastic
 30.E6,.3
*Conductivity
 10.000, 
*Specific Heat
 0.001, 
*Density
 1000., 
**
*Element,Type=cgax4rt,Elset=Active
 2,5,3,13,15
 101,103,101,111,113
 102,105,103,113,115
*Solid Section,Elset=Active,Material=Active
*Material,Name=Active
*Elastic
 30.E6,.3
*Conductivity
 10., 
*Density
 1000., 
*Specific Heat
 .001, 
**
*Elset,Elset=Etop
 102,101
*Elset,Elset=Ebot
 3,2,1
*Surface,Name=Asurf
 Etop,S1
*Surface,Name=Bsurf
 Ebot,S3
*Contact Pair,Interaction=Smooth,Smooth=0.05
 Asurf,Bsurf
*Surface Interaction,Name=Smooth
** Clearance Dependent Gap Conductance Not Present
*Gap Conductance,Pressure
 20.,100.
 20.,120.
  5.,190.
  5.,200.
*Gap Heat Generation
 0.0, 
**
*Amplitude, Name=Slide, Value=Relative, Time=Step
 0.0, 0.0, 200., 1.0, 400., 0.0, 600., -1.0
 800., 0.0,  1000., 0.0
*Amplitude, Name=Remove, Value=Relative, Time=Step
 0.0, 1.0,  30.0, 0.0,  100.0, 0.0
*Amplitude, Name=Film, Value=Relative, Time=Step
 0.0, 0.2,  10.0, 1.0 
**
*Initial Conditions,Type=Temp
 All,0.0
**
*Step,Inc=50,Nlgeom,Amp=Ramp,Unsymm=Yes
 Step 1
*Coupled Temperature,Deltmx=100.
 1.,10.
*Controls,Parameters=Field
 1.0e-6, 
*Boundary
 Bot,1,1
 Bot,5,5
 1,2,2
 7,2,2
 113,2,2
 113,5,5
*Dload
 101,P3,100.
 102,P3,100.
*Dflux
 101,S3,100.
 102,S3,100.
*Film, Film Amplitude=Film
 2,F1,0.,10.
*Contact Print,Slave=Asurf
*Contact File,Slave=Asurf,F=10
*Node Print
 Rf,Nt11,Rfl
*El Print
 S,
 E,
 Temp,
 Hfl,
 Nflux, 
*El File,F=10
 S,LE,Temp
 Nflux, 
*Node File,F=10
 Nt,Rfl
*Output,Field,Freq=10
*Element Output
 S,LE,Temp,Nflux
*Node Output
 Nt,Rfl,U
*Contact Output
 Cstress, Cdisp
*Print,Contact=Yes
*End Step
**
*Step,Inc=50,Nlgeom,Amp=Ramp,Unsymm=Yes
 Step 2
*Coupled Temperature,Deltmx=100.
 100.,1000.,,100.
*Boundary,Fixed
 Top,1,1
*Boundary,Amplitude=Slide
 113, 2,2, 1.0607
 113, 5,5, 0.5304
*Dload
 101,P3,100.
 102,P3,100.
*Dflux
 101,S3,100.
 102,S3,100.
*Film 
 2,F1,0.,10.
*Node Print
 Rf,
 Nt11,Rfl
*El Print
 S,Temp
 Hfl, 
 Nflux, 
*Output,Field,Freq=1
*Element Output
 S,LE,Temp,Nflux
*Node Output
 Nt,Rfl,U
*Contact Output
 Cstress, Cdisp
*Print,Contact=Yes
*End Step
**
*Step,Inc=50,Nlgeom,Unsymm=Yes
 Step 3
*Coupled Temperature-Displacement,Steady State
 100000.,100000.
*Boundary,Op=New
 Bot,1,1
 Bot,5,5
 1,2,2
 7,2,2
 113,2,2
 113,5,5
*End Step
**
*Step,Inc=50,Nlgeom,Unsymm=Yes
 Step 4
*Coupled Temperature-Displacement,Steady State
 100000.,100000.
*Dload
 101,P3,200.
 102,P3,200.
*Boundary
 113,2,2,0.0
*End Step
**
*Step,Inc=50,Nlgeom,Amp=Ramp,Unsymm=Yes
 Step 5
*Coupled Temperature-Displacement,Deltmx=100.
 5.0, 100.0
*Dflux, Amp=Remove
 101, S3, 100.0
 102, S3, 100.0
*Boundary
 113, 2,2, 10.0
*Boundary,Fixed
 111,1,1
 113,1,1
 115,1,1
*End Step