** : base problem for symmetric transfer problem: pc36shrev2
*heading
** ELEMENT : CGAX3H  ---> C3D6H
** FEATURE TESTED : *SYMMETRIC MODEL GEN. 
**                  *SYMMETRIC RESULTS TRANSFER
*system
1.0,0,0
*node, nset=nall
1, 
2,1
3,2
4,0,1
5,1,1
6,2,1
7,1,1
8,2,1
9,1,3
10,2,3
1000,1,4
*node, nset=nrigid
21,0,3
22,1.5,3
23,3,3
*nset,nset=nhoop
1,2,3,4,5,6,9,10,1000
*element, type=cgax3h, elset=eall
1,1,5,4
2,1,2,5
3,2,6,5
4,2,3,6
5,7,10,9
6,7,8,10
*element, type=rax2, elset=erigid
11,21,22
12,22,23
*rigid body, elset=erigid, refnode=1000
*solid section, elset=eall, material=soft
*material,name=soft
*hyperelastic
1900.0, 0, 2.4E-4
*surface, name=s1
erigid, sneg
*surface,name=s2
5,
6,
*surface,name=s3
1,s2
3,s2
*surface, name=s4
6,s1
*contact pair,interaction=smooth, small sliding, tied, adjust=0.001,
smooth=0.2
s4,s3
*contact pair,interaction=rough
s2,s1
*surface interaction,name=rough
*surface interaction, name=smooth
*nset,nset=n1
1, 
*nset,nset=n2
2, 
*nset,nset=n3
3, 
*nset,nset=n4
4, 
*nset,nset=n7
5, 
*nset,nset=n9
9, 
*nset,nset=rig
1000,
*rest,w
*step,nlgeom, unsymm=yes
*static
1.0,1.0
*boundary
n1,1,2
n1,5,5
n4,1,2
n2,2,2
n2,5,5
n3,2,2
n3,5,5
n7,1,1
n9,1,1
rig,1,1
rig,3,6
rig,2,2,-0.1
*nodeprint, nset=nall, f=1
u, 
rf, 
*el print, elset=eall, f=1
s, 
e, 
mises, 
*contact print
*nodefile, nset=nall, f=1
u, 
rf, 
*el file, elset=eall, f=1
s, 
e, 
*print, contact=yes
*contact file
*output, field, freq=1
*node output
u, 
rf, 
*element output
s, 
e, 
*contact output, var=all
*endstep