*heading
MISES PLASTICITY WITH COMBINED ISOTROPIC-KINEMATIC HARDENING
WITH TEMPERATURE-DEPENDENT GAMMA PARAMETER
THERMOMECHANICAL LOADING:
 - Uniaxial tension (disp. control) test; direction 1, c3d8r; 
 - Isothermal conditions for elements 1 and 2 
 - Non-isothermal conditions for elements 3 and 4, with element 4
   undergoing abrupt temperature changes  
*node,nset=alln1
1,0.,0.,0.
2,1.,0.,0.
3,1.,1.,0.
4,0.,1.,0.
5,0.,0.,1.
6,1.,0.,1.
7,1.,1.,1.
8,0.,1.,1.
*node,nset=alln2
11,2.,0.,0.
12,3.,0.,0.
13,3.,1.,0.
14,2.,1.,0.
15,2.,0.,1.
16,3.,0.,1.
17,3.,1.,1.
18,2.,1.,1.
*node,nset=alln3
21,4.,0.,0.
22,5.,0.,0.
23,5.,1.,0.
24,4.,1.,0.
25,4.,0.,1.
26,5.,0.,1.
27,5.,1.,1.
28,4.,1.,1.
*node,nset=alln4
31,6.,0.,0.
32,7.,0.,0.
33,7.,1.,0.
34,6.,1.,0.
35,6.,0.,1.
36,7.,0.,1.
37,7.,1.,1.
38,6.,1.,1.
*nset,nset=ndisp
2,3,6,7
12,13,16,17
22,23,26,27
32,33,36,37
*element,type=c3d8r,elset=alle
1,1,2,3,4,5,6,7,8
2,11,12,13,14,15,16,17,18
3,21,22,23,24,25,26,27,28
4,31,32,33,34,35,36,37,38
*Distribution Table, name=distTableElastic
 modulus, ratio
*Distribution, name=distElastic, table=distTableElastic, location=element
 , 10.e3, 0.25
 alle, 200.0e3, 0.3
*solid section,elset=alle,material=alle
*material,name=alle
*elastic
distElastic,
*plastic, hardening=combined, data type=parameters
200., 2.222e4, 34.65, 0.0
200., 2.222e4, 44.65, 10.0
*cyclic hardening, parameters
200., 2000., 0.25, 0.0
200., 2000., 0.25, 10.0
*boundary
1,1,3
4,1,1
4,3,3
5,1,1
5,2,2
8,1,1
**
11,1,3
14,1,1
14,3,3
15,1,1
15,2,2
18,1,1
**
21,1,3
24,1,1
24,3,3
25,1,1
25,2,2
28,1,1
**
31,1,3
34,1,1
34,3,3
35,1,1
35,2,2
38,1,1
**
*initial conditions, type=temperature
alln1,0
alln2,10
alln3,0
alln4,0
*amplitude, name=ramp
0.0, 0.0, 20.0, 1.0
*amplitude, name=step
0.0, 0.0, 10.0, 0.0, 10.01, 1.0, 20.0, 1.0
**step 1 tension***
*step,inc=20
*static, direct
1.0, 20.
*boundary
ndisp, 1, 1, 0.2
*temperature, amplitude=ramp
alln3,10
*temperature, amplitude=step
alln4,10
*output, field, variable=preselect
*output, history
*element output, elset=alle
 s11,alpha11,pe11,peeq,temp
*end step