** Test Kamal cure model with DCAX4E element in coupled thermal-electrical 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
  2,  1.0, 0.0
  3,  1.0, 1.0
  4,  0.0, 1.0
*Element, type=DCAX4E
  1, 1,2,3,4
*Else,elset=eall
  1
*Nset, nset=nfix1
 1,4
*Nset, nset=nfix2
 1,2
*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
*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,
*Electrical conductivity
 6.58E6,
*Joule heat fraction
 1.0
*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
*Coupled Thermal-Electrical, deltmx=200.
 1.0, 50., 1e-09, 1.0
**
*Boundary
 nFix2,  9,9, 0.1
** 
** OUTPUT REQUESTS
** 
** FIELD OUTPUT: fieldOutput
** 
*Output, field, freq=50
*Node Output
 NT,EPOT
*Element Output, directions=YES
 TEMP, DOC, DOCR, DDOCRDTEMP
** 
** HISTORY OUTPUT: monitorHistoryOutput
** 
*Output, history
*Element Output,Elset=eall
 DOC
*End Step