** : base problem for symmetric transfer problem: pm34srrev2
*heading
 FEATURE TESTED : *SYMMETRIC MODEL GENERATION
 **               *SYMMETRIC RESULTS TRANSFER
 ELEMENT TESTED : MGAX1 ---> M3D4R
*node, nset=nall
1,2
2,3
3,3,0.5
4,2,0.5
5,2,0.5
6,3,0.5
7,3,1
8,2,1
*element,type=cgax4,elset=solid
1,1,2,3,4
2,5,6,7,8
*element,type=mgax1,elset=mem
3,3,4
4,7,8
5,1,2
6,5,6
*elset,elset=mem1
3
*elset,elset=mem2
4
*elset,elset=mem3
5,6
*solid section, elset=solid, material=soft
*membrane section, elset=mem1, material=soft
0.1,
*REBAR LAYER
REBAR1,0.1,0.2,0,STIFF,90,1
REBAR2,0.1,0.2,0,STIFF,0,1 
REBAR3,0.1,0.2,0,STIFF,20,1
*membrane section, elset=mem2, material=soft
0.1,
*REBAR LAYER
REBAR3,0.1,0.2,0,STIFF,20,1
*membrane section, elset=mem3, material=soft
0.1,
*REBAR LAYER
REBAR3,0.1,0.2,0,STIFF,-20,1
*material, name=soft
*elastic
1.e4,0.3
*material, name=stiff
*elastic
1.e6, 0.3
*surface,name=s1
3,spos
*surface,name=s2
2,s1
**contact pair, interaction=tied,tied, adjust=0.005,smallsliding
*tie,name=tie,adjust=yes
s2,s1
**surface interaction,name=tied
*nset,nset=n1
1, 
*nset,nset=n2
2, 
*nset,nset=n4
4, 
*nset,nset=n8
8, 
*nset,nset=n7
7, 
*elset,elset=e2
2, 
*nset,nset=nhoop
1,2,3,4,7,8
*restart,w
*step
*static
1.0,1.0
*boundary
n1,1,2
n2,2,2
n4,1,1
n8,1,1
n1,5,5
n2,5,5
*dload
e2,p3,10.
*nodefile
u, 
rf, 
*elfile
s, 
e, 
*elfile,rebar
s, 
e, 
*output, field, freq=1
*node output
u, 
rf, 
*element output
s, 
e,
*element output,rebar
s, 
e,
*endstep