*Heading Basic Verification Of Field Dependence Of Conductivity Test Type: Material Verification [cpeg4rht] ** ** See "Thermal Properties" Of Abaqus/Verification ** Manual -- Chapter 2.3.1 ** *Node,Nset=Nall 1, 2,1. 3,3. 4,6. 11, 0., 1. 12, 1., 1. 13, 3., 1. 14, 6., 1. *Node,Nset=Refnd 98, 0., 0. *Nset,Nset=Fvnods 2,3,12,13 *Element,Elset=K1k3,Type=cpeg4rht 1,1,2,12,11 3,3,4,14,13 *Element,Elset=K2fv,Type=cpeg4rht 2,2,3,13,12 *Solid Section,Elset=K1k3,Material=Kconst,Ref Node=98 3., *Solid Section,Elset=K2fv,Material=Kfvdep,Ref Node=98 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 Refnd, 3,5 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