** : base problem for symmetric transfer problem: ps68dxrev1
*heading
** ELEMENT : DSAX2  ---> DS8
** FEATURE TESTED : *SYMMETRIC MODEL GEN. 
**                  *SYMMETRIC RESULTS TRANSFER
*node, nset=nall
1,2
2,3
3,3,0.5
4,2,0.5
5,2.5,0
6,3,0.25
7,2.5,0.5
8,2,0.25
9,2,0.5
10,3,0.5
11,3,1
12,2,1
13,2.5,0.5
14,3,0.75
15,2.5,1
16,2,0.75
*element,type=dcax8,elset=solid
1,1,2,3,4,5,6,7,8
2,9,10,11,12,13,14,15,16
*element,type=dsax2,elset=shell
**3,3,7,4
3,4,7,3
*solid section, elset=solid, material=soft
*shell section, elset=shell, material=soft
0.1,3
*material, name=soft
*elastic
1.e4,0.3
*DENSITY
7800.,  
*conductivity
50.
*specific heat
460.
*surface,name=s1
3,spos
*surface,name=s2
2,s1
*tie, name=tie-1
s2,s1
*nset,nset=n1
1, 
*nset,nset=n2
2, 
*nset,nset=n4
4, 
*nset,nset=n5
5, 
*nset,nset=n8
8, 
*nset,nset=n12
12, 
*nset,nset=n16
16, 
*elset,elset=e2
2, 
*nset,nset=nhoop
1,2,3,4,7,8,11,12,14,15,16
*restart,w
*initial conditions,type=temperature
nall,20.
*step
*heat transfer,deltmx=10.0
0.1,1.0
*dflux
**shell,sneg,1.0e8
e2,s3,10.e7
*nset,nset=qa_test_nset
nall,
*output,field,freq=9999
*node output,nset=qa_test_nset
nt,
*endstep