*HEADING
THERMALLY COUPLED CONTACT, FINITE SLIDING CONTACT WITH 
INTERFACE CONDUCTIVITY, DEFORMABLE
**
** See ch. 1.6.7 of ABAQUS/Verification Manual
**
*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, NSET=ALL
1,7,1
11,17,1
101,105,1
111,115,1
*NSET,NSET=QA_TEST
ALL
*NSET,NSET=BOT,GEN
1,7,1
*NSET,NSET=TOP,GEN
111,115,1
**
*ELEMENT,TYPE=CAX3T ,ELSET=DEAD
1,1,11,13
2,1,13,3
5,5,15,17
6,5,17,7
*SOLID SECTION,ELSET=DEAD,MATERIAL=DEAD
*MATERIAL,NAME=DEAD
*ELASTIC
30.E6,.3
*CONDUCTIVITY
10.000, 
*SPECIFIC HEAT
0.001, 
*DENSITY
1000., 
**
*ELEMENT,TYPE=CAX3T,ELSET=ACTIVE
3,3,13,15
4,3,15,5
101,101,111,113
102,103,101,113
103,103,113,115
104,105,103,115
*ELSET,ELSET=ETOP
102,104
*ELSET,ELSET=EBOT, GENERATE
1,5,2
*SOLID SECTION,ELSET=ACTIVE,MATERIAL=ACTIVE
*MATERIAL,NAME=ACTIVE
*ELASTIC
30.E6,.3
*CONDUCTIVITY
10., 
*DENSITY
1000., 
*SPECIFIC HEAT
.001, 
**
*AMPLITUDE, NAME=SLIDE, VALUE=RELATIVE, TIME=STEP,DEFINITION=SMOOTH STEP
0.0, 0.0,  20., 1.0,  40., 0.0,  60., -1.0
80., 0.0,  100., 0.0
*AMPLITUDE, NAME=RAMP, DEFINITION=SMOOTH STEP
0.0,0.0,10.,1.0
**
*INITIAL CONDITIONS,TYPE=TEMP
ALL,20.0
**
*ELSET, ELSET=EALL
ACTIVE, DEAD
**
*SURFACE, NAME=ASURF
ETOP,S1
*SURFACE, NAME=BSURF
EBOT,S2
**
*STEP
STEP 1
*DYNAMIC TEMPERATURE-DISPLACEMENT, EXPLICIT, DIRECT
2.5e-3,10.
*CONTACT PAIR,INTERACTION=ROUGH,WEIGHT=0.0
ASURF,BSURF
*SURFACE INTERACTION,NAME=ROUGH
*GAP CONDUCTANCE,PRESSURE
20.,0.
20.,100.
20.,110.
 5.,190.
 5.,200.
**
*BOUNDARY, TYPE=VELOCITY
BOT,1,1
1,2,2
7,2,2
113,2,2
*DLOAD, AMPLITUDE=RAMP
101,P2,100.
103,P2,100.
*DFLUX, AMPLITUDE=RAMP
101,S2,100.
103,S2,100.
*FILM, AMPLITUDE=RAMP
4,F3,20.,10.
*********************
*FILE OUTPUT,N=1
*NODE FILE,NSET=ALL
NT,
********************
*OUTPUT,FIELD,NUM=1
*NODE OUTPUT,NSET=QA_TEST
NT,
*NODE OUTPUT,NSET=ALL
U,
************
*CONTACT OUTPUT
CSTRESS,
*ELEMENT OUTPUT
S,
********************
***OUTPUT,HISTORY, FREQUENCY=500
***NODE OUTPUT,NSET=ALL
**U,NT
*******************
*OUTPUT,HISTORY, FREQUENCY=99999
*ENERGY OUTPUT,VAR=ALL
******************
*END STEP
**
*STEP
STEP 2
*DYNAMIC TEMPERATURE-DISPLACEMENT, EXPLICIT, DIRECT
2.5e-3,100.
*BOUNDARY,TYPE=VELOCITY
TOP,1,1
*BOUNDARY,AMPLITUDE=SLIDE
113,2,2,1.5
*END STEP
**
*STEP
STEP 3 RUN TO STEADY STATE
*DYNAMIC TEMPERATURE-DISPLACEMENT, EXPLICIT, DIRECT
3.5e-3,5.0
*FIXED MASS SCALING, ELSET=EALL, FACTOR=1.E2
*BOUNDARY,OP=NEW, TYPE=VELOCITY
BOT,1,1
1,2,2
7,2,2
113,2,2
*END STEP
**
*STEP
STEP 4 - RUN TO STEADY STATE
*DYNAMIC TEMPERATURE-DISPLACEMENT, EXPLICIT, DIRECT
3.5e-3,10.0
*FIXED MASS SCALING, ELSET=EALL, FACTOR=1.E2
*AMPLITUDE,NAME=RAMP2, DEFINITION=SMOOTH STEP
0.0,0.5,10.0,1.0
*DLOAD, AMPLITUDE = RAMP2
101,P2,200.
103,P2,200.
*END STEP
**
*STEP
STEP 5
*DYNAMIC TEMPERATURE-DISPLACEMENT, EXPLICIT, DIRECT
3.5e-3,40.0
*FIXED MASS SCALING, ELSET=EALL, FACTOR=1.E2
*AMPLITUDE, NAME=REMOVE, VALUE=RELATIVE, TIME=STEP, DEFINITION=SMOOTH STEP
0.0, 1.0,  30.0, 0.0,  40.0, 0.0
*DFLUX, AMP=REMOVE
101, S2, 100.0
103, S2, 100.0
*AMPLITUDE, NAME=RAMP3, DEFINITION=SMOOTH STEP
0.0,0.0,40.,1.0
*BOUNDARY, TYPE=VELOCITY, AMP=RAMP3
113, 2,2,0.2
111,1,1
113,1,1
115,1,1
*END STEP