*Heading
Basic Verification Of Field Dependence Of Conductivity
Test Type: Material Verification [c3d8t]
**
** See "Thermal Properties" Of Abaqus/Verification
** Manual -- Chapter 2.3.1
**
*Node,Nset=Nall
1, 0., 0., 3.
2, 0., 1., 3.
3, 0., 1., 1.
4, 0., 0., 1.
5, 1., 1., 3.
6, 1., 1., 1.
7, 1., 0., 1.
8, 1., 0., 3.
9, 0., 0., 6.
10, 0., 1., 6.
11, 1., 0., 6.
12, 1., 1., 6.
13, 1., 0., 0.
14, 1., 1., 0.
15, 0., 0., 0.
16, 0., 1., 0.
*Nset,Nset=Fvnods
1, 2, 3, 4, 5, 6, 7, 8
*Nset,Nset=Left
13,14,15,16
*Nset,Nset=Right
9,10,11,12
*Element,Elset=K1k3,Type=c3d8t
1, 3, 4, 15, 16, 6, 7, 13, 14
3, 5, 8, 11, 12, 2, 1, 9, 10
*Element,Elset=K2fv,Type=c3d8t
2, 8, 5, 6, 7, 1, 2, 3, 4
*Solid Section,Elset=K1k3,Material=Kconst
3.,
*Solid Section,Elset=K2fv,Material=Kfvdep
3.,
*Initial Conditions,Type=Temperature
Nall,0.
*Initial Conditions,Type=Field
Nall,0.
*Material,Name=Kconst
*Elastic
1.0,0.0
*Expansion
0.0,
*Conductivity
150.,
*Density
7850.,
*Specific Heat
460.,
*Material,Name=Kfvdep
*Elastic
1.0,0.0
*Expansion
0.0,
*Conductivity,Dep=1
1.,,25.
10.,,50.
100.,,75.
1000,,100.
*Density
7850.,
*Specific Heat
460.,
*Amplitude,Name=Rise
0.,0.,1.,1.
*Step
*Coupled Temperature-Displacement,Steady State
.25,1.,.25,.25
*Boundary
Nall, 1, 3
Left,11,11,1000.
Right,11,11,0.
*Field,Variable=1,Amp=Rise
Fvnods,100.
*Node File
Nt,
*El File, Position=Centroidal
Fv,
*El File, Position=Integration Points
Fv,
*Output, Field
*Node Output
Nt,
*Element Output, Position=Centroidal
Fv,
*Element Output, Position=Integration Points
Fv,
*End Step