*HEADING
FILE NAME :
FEATURES TESTED : AXISYMMETRIC HEAT TRANSFER INTERFACE
GAP CONDUCTANCE
GAP RADIATION
*RESTART,WRITE
*NODE
1, 10.5, 0.0
3, 11.5, 0.0
4, 10.5, 1.0
6, 11.5, 1.0
*NGEN,NSET=CTEM
1,3,
*NGEN,NSET=VTEM
4,6
*NSET,NSET=NALL
CTEM,VTEM
*NSET,NSET=CTEMP
1,3
*NSET,NSET=VTEMP
4,6
*NSET,NSET=NOUT
VTEMP,CTEMP
*ELEMENT,TYPE=SAX2T,ELSET=EL_ONE
1,1,2,3
*ELEMENT,TYPE=SAX2T,ELSET=EL_TWO
2,4,5,6
*ELSET,ELSET=EALL
1,2
*SHELL SECTION,ELSET=EALL,MATERIAL=SOLMAT
1.0,5
*MATERIAL,NAME=SOLMAT
*ELASTIC,TYPE=ISO
30.0E6, 0.3
*EXPANSION,TYPE=ISO,ZERO=0.0
10.0E-06,
*CONDUCTIVITY,TYPE=ISO
43.0,
*DENSITY
7700.0,
*SPECIFIC HEAT
600.0,
*PHYSICAL CONSTANTS,STEFANB=5.6697E-08,ABSOLUTE ZERO=-460.0
*surface,NAME=SURF_01
EL_ONE,SPOS
*surface,NAME=SURF_02
EL_TWO,SNEG
*CONTACT PAIR, INTERACTION=GAPC,SMALL SLIDING,TYPE=SURFACE,NO THICKNESS
SURF_01,SURF_02
*SURFACE INTERACTION,NAME=GAPC
1.0,
*GAP CONDUCTANCE
1.0,0.0
0.5,1.0
*GAP RADIATION
3.4664e-2,3.4664e-2
1.,0.
0.5,1.0001
** converted from old data: 1.E-9, 1.E-9
*GAP HEAT GENERATION
0.5,0.5
**
**  Apply different temperatures to the nodes above and
**  below the contact surface
**
*STEP
*COUPLED TEMPERATURE-DISPLACEMENT,STEADY STATE
1.0,1.0
*OUTPUT,FIELD,FREQ=20
*NODE OUTPUT,NSET=NOUT
NT,
RFL,
*OUTPUT,FIELD,FREQ=20
*ELEMENT OUTPUT
THE,S
*OUTPUT,HISTORY,FREQUENCY=1
*ENERGY OUTPUT,VARIABLE=PRESELECT
*EL PRINT,FREQ=20
*NODE PRINT,F=20
*BOUNDARY
NALL,1,2,0.0
NALL,6,6,0.0
CTEMP,11,11,50.0
VTEMP,15,15,1000.0
*PRINT,CONTACT=YES
*CONTACT PRINT,SECONDARY=SURF_01,MAIN=SURF_02,F=20
CSTRESS,CDISP
HFL,HFLA,HTL
SFDR,SFDRA
*OUTPUT,FIELD,FREQ=20
*CONTACT OUTPUT,VARIABLE=PRESELECT,SECONDARY=SURF_01,MAIN=SURF_02
CSTRESS,CDISP
HFL,HFLA,HTL
SFDR,SFDRA
*END STEP