** Test Kamal cure model with DC3D8 element in Heat Transfer transient analysis
** ....................................... 
*Heading
*Physical Constants, absolute zero=-273.150
*Preprint, echo=NO, model=NO, history=NO, contact=NO
**
** PARTS
**
*Part, name=pCure
*Node, nset=nall
  1,  0.0, 0.0, 0.0
  2,  1.0, 0.0, 0.0
  3,  1.0, 1.0, 0.0
  4,  0.0, 1.0, 0.0
  5,  0.0, 0.0, 1.0
  6,  1.0, 0.0, 1.0
  7,  1.0, 1.0, 1.0
  8,  0.0, 1.0, 1.0
*Element, type=DC3D8
  1, 1,2,3,4,5,6,7,8
*Else,elset=eall
  1
*Nset, nset=nfix1
 1,4,5,8
*Nset, nset=nfix2
 1,2,4,5
*Nset, nset=nfix3
 1,2,3,4
*End Part
**  
** ASSEMBLY
**
*Assembly, name=Assembly
**  
*Instance, name=iCure, part=pCure
 *solid section, material=CURE_MATERIAL, elset=eall
*End Instance
**  
*elset,elset=eall
 iCure.eall
*nset,nset=nall
 iCure.nall
*nset,nset=nfix1
 iCure.nfix1
*nset,nset=nfix2
 iCure.nfix2
*nset,nset=nfix3
 iCure.nfix3
*End Assembly
** 
** MATERIALS
** 
** ......... MATERIAL and Property and Parameter Tables
**
*Material, name=CURE_MATERIAL
*Density
 1.25000e-09,
*Conductivity
 3.20000e-04,
*Specific Heat
 1.86000e+06,
*Cure Kinetics, Definition=Kamal
**  Zi       Ei       mi    ni   bi
 3.5E14, 12027.41,  1.05,  1.3,  0.0
*Cure Heat Generation
 2.5e+07
**
** Name: initialTemperature   Type: Temperature
*Initial Conditions, type=TEMPERATURE
 nall, 75.0
*Initial Conditions, type=CURE
 eall, 0.001
** ----------------------------------------------------------------
** 
** STEP: Cure
** 
*Step, name=Cure, inc=5000
 Curing
*Heat Transfer, deltmx=200.
 1.0, 50., 1e-09, 1.0
** 
** OUTPUT REQUESTS
** 
** FIELD OUTPUT: fieldOutput
** 
*Output, field, freq=50
*Node Output
 NT,
*Element Output, directions=YES
 TEMP, DOC, DOCR, DDOCRDTEMP
** 
** HISTORY OUTPUT: monitorHistoryOutput
** 
*Output, history
*Element Output,Elset=eall
 DOC
*End Step