*Heading
 Basic Verification Of Field Dependence Of Conductivity
 Test Type: Material Verification  [cax4ht]
**
** See "Thermal Properties"  Of Abaqus/Verification 
** Manual -- Chapter 2.3.1
**
*Node,Nset=Nall
 1,100. 
 2,101.
 3,103.
 4,106.
 11, 100., 1.
 12, 101., 1.
 13, 103., 1.
 14, 106., 1.
*Nset,Nset=Fvnods
 2,3,12,13
*Element,Elset=K1k3,Type=cax4ht
 1,1,2,12,11
 3,3,4,14,13
*Element,Elset=K2fv,Type=cax4ht
 2,2,3,13,12
*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, 2
 1, 11,,1000.
 4, 11,,0.
 11,11,,1000.
 14,11,,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