*HEADING
 FILE NAME : 
 FEATURES TESTED : AXISYMMETRIC HEAT TRANSFER INTERFACE
		   GAP RADIATION
 THE SECONDARY IS GROSSLY OVERCLOSED BUT CUSTOMERS LIKELY EMPLOY GAP RADIATION WITH OVERCLOSURE  AS AN APPROXIMATION
 IN THIS CASE OF OVERCLOSURE, THE VIEWFACTOR IS ALWAYS 1 AND GAP RADIATION IS HANDLED WITH THIS VIEW FACTOR
 THE PARAMETER INTERFERENCE ON *CONTACT INITIALIZATION DATA PREVENTS NODAL ADJUSTMENTS IN PRE AND IN A PURE HEAT TRANSFER PROCEDURE
 UNTIL TEMPERATURES ARE IMPORTED IN A SEQUENTIAL ANALYSIS AND THE OVERCLOSURES RESOLVED.
*PREPRINT,CONTACT=YES 
*PHYSICAL CONSTANTS,ABS=-460, STEFANB=.1714E-8
*NODE,NSET=ALL_NOD
1, 10.5, 0.0
2, 10.5, 1.0
3, 11.6, 0.0
4, 11.6, 1.0
*NSET,NSET=CTEMP
1,2
*NSET,NSET=VTEMP
3,4
*ELEMENT,TYPE=DSAX1,ELSET=EL_ONE
1,1,2
*ELEMENT,TYPE=DSAX1,ELSET=EL_TWO
2,3,4
*ELSET,ELSET=ALL_EL
1,2
*SHELL SECTION,ELSET=ALL_EL,MATERIAL=SOLMAT
1.0,5
*MATERIAL,NAME=SOLMAT
*CONDUCTIVITY
1.0, 
*surface,NAME=SURF_01
EL_ONE,SPOS
*surface,NAME=SURF_02
EL_TWO,SNEG
*CONTACT INITIALIZATION DATA,NAME=CLR,INTERFERENCE FIT
*CONTACT
*CONTACT INCLUSIONS, ALL EXTERIOR
*CONTACT PROPERTY ASSIGNMENT
, ,GAPR
*CONTACT INITIALIZATION ASSIGNMENT
SURF_01,SURF_02,CLR
*SURFACE INTERACTION,NAME=GAPR
1.0, 
*GAP RADIATION
.45167,.45167
1.,0.
1.,1.
** converted from old data: 5.E-10, 5.E-10
*STEP
*HEAT TRANSFER, STEADY STATE
*CONTROLS,PARAMETERS=FIELD,FIELD=TEMPERATURE
5.0E-4,
*OUTPUT,FIELD
*NODE OUTPUT
NT,
RFL,
*EL PRINT,FREQ=0
*NODE PRINT
NT, 
RFL, 
*CONTACT PRINT
*OUTPUT,FIELD
*CONTACT OUTPUT,VARIABLE=PRESELECT
*BOUNDARY,OP=NEW
CTEMP,11,15,50.0
VTEMP,15,,100.0
*END STEP