*Heading
Mullins Effect, Compressible Yeoh Model, 2D element
Cyclic uniaxial tension
** Job name: x_mmecdo2cut_yeoh.inp
**
** PARTS
**
*Part, name=PART-1
*End Part
**
** ASSEMBLY
**
*Assembly, name=Assembly
**  
*Instance, name=PART-1-1, part=PART-1
*Node
      1,           1.,           0.
      2,           1.,           1.
*Element, type=SAX1
1, 1, 2
*Elset, elset=ONE
 1,
** Region: (Section-1-ONE:ONE)
*Elset, elset=_I1, internal
 1,
** Section: Section-1-ONE
*Shell Section, elset=_I1, material=TREL
0.1, 5
*End Instance
*Nset, nset=ALL, instance=PART-1-1
 1, 2
*Nset, nset=BOT, instance=PART-1-1
 1,
*Nset, nset=TOP, instance=PART-1-1
 2,
*End Assembly
** 
** MATERIALS
** 
*Material, name=TREL
*Hyperelastic, yeoh
 1.326,   -0.326,   0.1319, 0.000725,       0.,       0.
*Mullins effect
1.1, 100., 0.1
*Density
1.
** ----------------------------------------------------------------
** 
** STEP: Step-1
** 
*Step, name=Step-1
UNIAXIAL TENSION
*Dynamic, Explicit
, 20.,  
** 
** BOUNDARY CONDITIONS
** 
*Boundary
BOT, 2, 2
BOT, 6, 6
*Boundary, type=VELOCITY
TOP, 2, 2, 0.1
** 
** OUTPUT REQUESTS
** 
** HISTORY OUTPUT
** 
*Output, history, time interval=5
*energy output
allke, allse
*Element Output, elset=PART-1-1.ONE
SENER, S, DMENER 
*Node Output, nset=TOP
U,RF
*End Step
** ----------------------------------------------------------------
** 
** STEP: Step-2
** 
*Step, name=Step-2
*Dynamic, Explicit
, 20.,  
** 
** BOUNDARY CONDITIONS
**
*Boundary, type=VELOCITY
TOP, 2, 2, -0.1
*End Step
** ----------------------------------------------------------------
** 
** STEP: Step-3
** 
*Step, name=Step-3
*Dynamic, Explicit
, 20., 
** 
** BOUNDARY CONDITIONS
** 
*Boundary, type=VELOCITY
TOP, 2, 2, 0.15
** 
*End Step
** ----------------------------------------------------------------
** 
** STEP: Step-4
** 
*Step, name=Step-4
*Dynamic, Explicit
, 20.,  
** 
** BOUNDARY CONDITIONS
** 
*Boundary, type=VELOCITY
TOP, 2, 2, -0.15
*End Step