*HEADING
Heat transfer analysis of a cylinder head
*INCLUDE,INPUT=dircyccylinderhead_heat_mesh.inp
*INCLUDE,INPUT=dircyccylinderhead_heat_sets.inp
*CONTACT PAIR,INTERACTION=FR001,ADJUST=.1,SMALL SLIDING
SU001,SU002
*SURFACE INTERACTION,NAME=FR001
*GAP CONDUCTANCE
1.000,0
1,1
*CONTACT PAIR,INTERACTION=FR002,ADJUST=.1,SMALL SLIDING
SU003,SU004
*SURFACE INTERACTION,NAME=FR002
*GAP CONDUCTANCE
10.000,0
10,1
*CONTACT PAIR,INTERACTION=FR003,ADJUST=.1,SMALL SLIDING
SU005,SU015
*SURFACE INTERACTION,NAME=FR003
*GAP CONDUCTANCE
1.000,0
1,1
*CONTACT PAIR,INTERACTION=FR005,ADJUST=.1,SMALL SLIDING
SU007,SU008
*SURFACE INTERACTION,NAME=FR005
*GAP CONDUCTANCE
1.000,0
1,1
*CONTACT PAIR,INTERACTION=FR006,ADJUST=.1,SMALL SLIDING
SU009,SU010
*SURFACE INTERACTION,NAME=FR006
*GAP CONDUCTANCE
1.000,0
1,1
*CONTACT PAIR,INTERACTION=FR007,ADJUST=.1,SMALL SLIDING
SU011,SU012
*SURFACE INTERACTION,NAME=FR007
*GAP CONDUCTANCE
20.000,0
20,1
*CONTACT PAIR,INTERACTION=FR008,ADJUST=.1,SMALL SLIDING
SU013,SU014
*SURFACE INTERACTION,NAME=FR008
*GAP CONDUCTANCE
20.000,0
20,1
*CONTACT PAIR,INTERACTION=FR009,ADJUST=.1,SMALL SLIDING
SU016,SU017
*SURFACE INTERACTION,NAME=FR009
*GAP CONDUCTANCE
10.000,0
10,1
*CONTACT PAIR,INTERACTION=FR010,ADJUST=.1,SMALL SLIDING
SU019,SU020
*SURFACE INTERACTION,NAME=FR010
*GAP CONDUCTANCE
10.000,0
10,1
*SOLID SECTION,ELSET=PT000001,MATERIAL=MT000001
*SOLID SECTION,ELSET=PT000002,MATERIAL=MT000002
*SOLID SECTION,ELSET=PT000003,MATERIAL=MT000003
*SOLID SECTION,ELSET=PT000004,MATERIAL=MT000004
*SOLID SECTION,ELSET=PT000005,MATERIAL=MT000005
*SOLID SECTION,ELSET=PT000006,MATERIAL=MT000006
*SOLID SECTION,ELSET=PT000007,MATERIAL=MT000007
*MATERIAL,NAME=MT000001
*DENSITY
2.67000e-09,
*CONDUCTIVITY
118.1 ,    0,
149.3 ,  100,
161.4 ,  200,
173.5 ,  300,
185.7 ,  400,
*SPECIFIC HEAT
7.90000e+08 ,    0,
8.60000e+08 ,  100,
9.30000e+08 ,  200,
1.00000e+09 ,  300,
1.07000e+09 ,  400,
*MATERIAL,NAME=MT000002
*DENSITY
8.E-09,
*SPECIFIC HEAT
0.5E+09,
*CONDUCTIVITY
30.,  20.
34., 300.
36., 500.
*MATERIAL,NAME=MT000003
*DENSITY
8.E-09,
*SPECIFIC HEAT
0.5E+09,
*CONDUCTIVITY
30.,  20.
34., 300.
36., 500.
*MATERIAL,NAME=MT000004
*DENSITY
7.9E-09,
*SPECIFIC HEAT
0.5E+09,
*CONDUCTIVITY
15.,
*MATERIAL,NAME=MT000005
*DENSITY
2.67000e-09,
*CONDUCTIVITY
157.4 ,   20,
173.3 ,  400,
*SPECIFIC HEAT
8.04000e+08 ,   20,
1.07000e+09 ,  400,
*MATERIAL,NAME=MT000006
*DENSITY
8.4E-09,
*SPECIFIC HEAT
0.38E+09,
*CONDUCTIVITY
118.,
*MATERIAL,NAME=MT000007
*DENSITY
8.4E-09,
*SPECIFIC HEAT
0.38E+09,
*CONDUCTIVITY
118.,
*INITIAL CONDITIONS,TYPE=TEMPERATURE
NOEUDS,   40.000
*STEP,INC=100,Convert Sdi=No
cycle 1 (step 1)
*HEAT TRANSFER
1.,   10.
*BOUNDARY
NJOINT,11,11,35
*INCLUDE,INPUT=dircyccylinderhead_heat_load1.inp
*NODE PRINT,FREQ=0
*NODE FILE,FREQ=0
*EL PRINT,FREQ=0
*EL FILE,FREQ=0
*OUTPUT,FIELD,FREQ=0
*OUTPUT,HISTORY,FREQ=0
*END STEP
*STEP,INC=100,Convert Sdi=No
cycle 1 (step 2)
*HEAT TRANSFER
1.,   20.
*BOUNDARY,OP=NEW
NJOINT,11,11,35
*INCLUDE,INPUT=dircyccylinderhead_heat_load2.inp
*NODE PRINT,FREQ=0
*NODE FILE,FREQ=0
*EL PRINT,FREQ=0
*EL FILE,FREQ=0
*END STEP
*STEP,INC=100,Convert Sdi=No
cycle 2 (step 3)
*HEAT TRANSFER
1.,   10.
*BOUNDARY,OP=NEW
NJOINT,11,11,35
*INCLUDE,INPUT=dircyccylinderhead_heat_load1.inp
*NODE PRINT,FREQ=0
*NODE FILE,FREQ=0
*EL PRINT,FREQ=0
*EL FILE,FREQ=0
*END STEP
*STEP,INC=100,Convert Sdi=No
cycle 2 (step 4)
*HEAT TRANSFER
1.,   20.
*BOUNDARY,OP=NEW
NJOINT,11,11,35
*INCLUDE,INPUT=dircyccylinderhead_heat_load2.inp
*NODE PRINT,FREQ=0
*NODE FILE,FREQ=0
*EL PRINT,FREQ=0
*EL FILE,FREQ=0
*END STEP
*STEP,INC=100,Convert Sdi=No
cycle 3 (step 5)
*HEAT TRANSFER
1.,   10.
*BOUNDARY,OP=NEW
NJOINT,11,11,35
*INCLUDE,INPUT=dircyccylinderhead_heat_load1.inp
*NODE PRINT,FREQ=0
*NODE FILE,FREQ=1
NT
*OUTPUT,FIELD, FREQ=1
*NODE OUTPUT
NT
*EL PRINT,FREQ=0
*EL FILE,FREQ=0
*END STEP
*STEP,INC=100,Convert Sdi=No
cycle 3 (step 6)
*HEAT TRANSFER
1.,   20.
*BOUNDARY,OP=NEW
NJOINT,11,11,35
*INCLUDE,INPUT=dircyccylinderhead_heat_load2.inp
*NODE PRINT,FREQ=0
*NODE FILE,FREQ=1
NT
*OUTPUT,FIELD, FREQ=1
*NODE OUTPUT
NT
*EL PRINT,FREQ=0
*EL FILE,FREQ=0
*END STEP