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!* $Id$
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!***************************************
!* Module: CRYSTALLITE *
!***************************************
!* contains: *
!* - _init *
!* - materialpoint_stressAndItsTangent *
!* - _partitionDeformation *
!* - _updateState *
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!* - _stressAndItsTangent *
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!* - _postResults *
!***************************************
MODULE crystallite
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use prec , only : pReal , pInt
implicit none
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!
! ****************************************************************
! *** General variables for the crystallite calculation ***
! ****************************************************************
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integer ( pInt ) crystallite_maxSizePostResults
integer ( pInt ) , dimension ( : ) , allocatable :: crystallite_sizePostResults
integer ( pInt ) , dimension ( : , : ) , allocatable :: crystallite_sizePostResult
character ( len = 64 ) , dimension ( : , : ) , allocatable :: crystallite_output ! name of each post result output
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integer ( pInt ) , dimension ( : , : , : ) , allocatable :: &
crystallite_symmetryID ! crystallographic symmetry 1=cubic 2=hexagonal, needed in all orientation calcs
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real ( pReal ) , dimension ( : , : , : ) , allocatable :: &
crystallite_dt , & ! requested time increment of each grain
crystallite_subdt , & ! substepped time increment of each grain
crystallite_subFrac , & ! already calculated fraction of increment
crystallite_subStep , & ! size of next integration step
crystallite_Temperature , & ! Temp of each grain
crystallite_partionedTemperature0 , & ! Temp of each grain at start of homog inc
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crystallite_subTemperature0 , & ! Temp of each grain at start of crystallite inc
crystallite_statedamper ! damping for state update
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real ( pReal ) , dimension ( : , : , : , : ) , allocatable :: &
crystallite_Tstar_v , & ! current 2nd Piola-Kirchhoff stress vector (end of converged time step)
crystallite_Tstar0_v , & ! 2nd Piola-Kirchhoff stress vector at start of FE inc
crystallite_partionedTstar0_v , & ! 2nd Piola-Kirchhoff stress vector at start of homog inc
crystallite_subTstar0_v , & ! 2nd Piola-Kirchhoff stress vector at start of crystallite inc
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crystallite_orientation , & ! orientation as quaternion
crystallite_orientation0 , & ! initial orientation as quaternion
crystallite_rotation ! grain rotation away from initial orientation as axis-angle (in degrees)
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real ( pReal ) , dimension ( : , : , : , : , : ) , allocatable :: &
crystallite_Fe , & ! current "elastic" def grad (end of converged time step)
crystallite_Fp , & ! current plastic def grad (end of converged time step)
crystallite_invFp , & ! inverse of current plastic def grad (end of converged time step)
crystallite_Fp0 , & ! plastic def grad at start of FE inc
crystallite_partionedFp0 , & ! plastic def grad at start of homog inc
crystallite_subFp0 , & ! plastic def grad at start of crystallite inc
crystallite_F0 , & ! def grad at start of FE inc
crystallite_partionedF , & ! def grad to be reached at end of homog inc
crystallite_partionedF0 , & ! def grad at start of homog inc
crystallite_subF , & ! def grad to be reached at end of crystallite inc
crystallite_subF0 , & ! def grad at start of crystallite inc
crystallite_Lp , & ! current plastic velocitiy grad (end of converged time step)
crystallite_Lp0 , & ! plastic velocitiy grad at start of FE inc
crystallite_partionedLp0 , & ! plastic velocity grad at start of homog inc
crystallite_subLp0 , & ! plastic velocity grad at start of crystallite inc
crystallite_P , & ! 1st Piola-Kirchhoff stress per grain
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crystallite_disorientation ! disorientation between two neighboring ips (only calculated for single grain IPs)
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real ( pReal ) , dimension ( : , : , : , : , : , : , : ) , allocatable :: &
crystallite_dPdF , & ! individual dPdF per grain
crystallite_fallbackdPdF ! dPdF fallback for non-converged grains (elastic prediction)
logical , dimension ( : , : , : ) , allocatable :: &
crystallite_localConstitution , & ! indicates this grain to have purely local constitutive law
crystallite_requested , & ! flag to request crystallite calculation
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crystallite_todo , & ! flag to indicate ongoing calculation
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crystallite_converged , & ! convergence flag
crystallite_stateConverged , & ! flag indicating convergence of state
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crystallite_temperatureConverged ! flag indicating convergence of temperature
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CONTAINS
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!********************************************************************
! allocate and initialize per grain variables
!********************************************************************
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subroutine crystallite_init ( Temperature )
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!*** variables and functions from other modules ***!
use prec , only : pInt , &
pReal
use debug , only : debug_info , &
debug_reset
use math , only : math_I3 , &
math_EulerToR
use FEsolving , only : FEsolving_execElem , &
FEsolving_execIP
use mesh , only : mesh_element , &
mesh_NcpElems , &
mesh_maxNips , &
mesh_maxNipNeighbors
use IO
use material
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use lattice , only : lattice_symmetryTypes
use constitutive_phenopowerlaw , only : constitutive_phenopowerlaw_label , &
constitutive_phenopowerlaw_structure
use constitutive_dislotwin , only : constitutive_dislotwin_label , &
constitutive_dislotwin_structure
use constitutive_nonlocal , only : constitutive_nonlocal_label , &
constitutive_nonlocal_structure
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implicit none
integer ( pInt ) , parameter :: file = 200
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!*** input variables ***!
real ( pReal ) Temperature
!*** output variables ***!
!*** local variables ***!
integer ( pInt ) , parameter :: maxNchunks = 2
integer ( pInt ) , dimension ( 1 + 2 * maxNchunks ) :: positions
integer ( pInt ) g , & ! grain number
i , & ! integration point number
e , & ! element number
gMax , & ! maximum number of grains
iMax , & ! maximum number of integration points
eMax , & ! maximum number of elements
nMax , & ! maximum number of ip neighbors
myNgrains , & ! number of grains in current IP
myCrystallite ! crystallite of current elem
integer ( pInt ) section , j , p , output , mySize
character ( len = 64 ) tag
character ( len = 1024 ) line
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integer ( pInt ) myStructure , & ! lattice structure
myPhase
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gMax = homogenization_maxNgrains
iMax = mesh_maxNips
eMax = mesh_NcpElems
nMax = mesh_maxNipNeighbors
allocate ( crystallite_Temperature ( gMax , iMax , eMax ) ) ; crystallite_Temperature = Temperature
allocate ( crystallite_P ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_P = 0.0_pReal
allocate ( crystallite_Fe ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_Fe = 0.0_pReal
allocate ( crystallite_Fp ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_Fp = 0.0_pReal
allocate ( crystallite_invFp ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_invFp = 0.0_pReal
allocate ( crystallite_Lp ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_Lp = 0.0_pReal
allocate ( crystallite_Tstar_v ( 6 , gMax , iMax , eMax ) ) ; crystallite_Tstar_v = 0.0_pReal
allocate ( crystallite_F0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_F0 = 0.0_pReal
allocate ( crystallite_Fp0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_Fp0 = 0.0_pReal
allocate ( crystallite_Lp0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_Lp0 = 0.0_pReal
allocate ( crystallite_Tstar0_v ( 6 , gMax , iMax , eMax ) ) ; crystallite_Tstar0_v = 0.0_pReal
allocate ( crystallite_partionedTemperature0 ( gMax , iMax , eMax ) ) ; crystallite_partionedTemperature0 = 0.0_pReal
allocate ( crystallite_partionedF ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_partionedF = 0.0_pReal
allocate ( crystallite_partionedF0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_partionedF0 = 0.0_pReal
allocate ( crystallite_partionedFp0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_partionedFp0 = 0.0_pReal
allocate ( crystallite_partionedLp0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_partionedLp0 = 0.0_pReal
allocate ( crystallite_partionedTstar0_v ( 6 , gMax , iMax , eMax ) ) ; crystallite_partionedTstar0_v = 0.0_pReal
allocate ( crystallite_subTemperature0 ( gMax , iMax , eMax ) ) ; crystallite_subTemperature0 = 0.0_pReal
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allocate ( crystallite_symmetryID ( gMax , iMax , eMax ) ) ; crystallite_symmetryID = 0.0_pReal !NEW
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allocate ( crystallite_subF ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_subF = 0.0_pReal
allocate ( crystallite_subF0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_subF0 = 0.0_pReal
allocate ( crystallite_subFp0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_subFp0 = 0.0_pReal
allocate ( crystallite_subLp0 ( 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_subLp0 = 0.0_pReal
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allocate ( crystallite_orientation ( 4 , gMax , iMax , eMax ) ) ; crystallite_orientation = 0.0_pReal
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allocate ( crystallite_orientation0 ( 4 , gMax , iMax , eMax ) ) ; crystallite_orientation = 0.0_pReal
allocate ( crystallite_rotation ( 4 , gMax , iMax , eMax ) ) ; crystallite_rotation = 0.0_pReal
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allocate ( crystallite_disorientation ( 4 , nMax , gMax , iMax , eMax ) ) ; crystallite_disorientation = 0.0_pReal
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allocate ( crystallite_subTstar0_v ( 6 , gMax , iMax , eMax ) ) ; crystallite_subTstar0_v = 0.0_pReal
allocate ( crystallite_dPdF ( 3 , 3 , 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_dPdF = 0.0_pReal
allocate ( crystallite_fallbackdPdF ( 3 , 3 , 3 , 3 , gMax , iMax , eMax ) ) ; crystallite_fallbackdPdF = 0.0_pReal
allocate ( crystallite_dt ( gMax , iMax , eMax ) ) ; crystallite_dt = 0.0_pReal
allocate ( crystallite_subdt ( gMax , iMax , eMax ) ) ; crystallite_subdt = 0.0_pReal
allocate ( crystallite_subFrac ( gMax , iMax , eMax ) ) ; crystallite_subFrac = 0.0_pReal
allocate ( crystallite_subStep ( gMax , iMax , eMax ) ) ; crystallite_subStep = 0.0_pReal
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allocate ( crystallite_statedamper ( gMax , iMax , eMax ) ) ; crystallite_statedamper = 1.0_pReal
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allocate ( crystallite_localConstitution ( gMax , iMax , eMax ) ) ; crystallite_localConstitution = . true .
allocate ( crystallite_requested ( gMax , iMax , eMax ) ) ; crystallite_requested = . false .
allocate ( crystallite_converged ( gMax , iMax , eMax ) ) ; crystallite_converged = . true .
allocate ( crystallite_stateConverged ( gMax , iMax , eMax ) ) ; crystallite_stateConverged = . false .
allocate ( crystallite_temperatureConverged ( gMax , iMax , eMax ) ) ; crystallite_temperatureConverged = . false .
allocate ( crystallite_todo ( gMax , iMax , eMax ) ) ; crystallite_todo = . true .
allocate ( crystallite_output ( maxval ( crystallite_Noutput ) , &
material_Ncrystallite ) ) ; crystallite_output = ''
allocate ( crystallite_sizePostResults ( material_Ncrystallite ) ) ; crystallite_sizePostResults = 0_pInt
allocate ( crystallite_sizePostResult ( maxval ( crystallite_Noutput ) , &
material_Ncrystallite ) ) ; crystallite_sizePostResult = 0_pInt
if ( . not . IO_open_file ( file , material_configFile ) ) call IO_error ( 100 ) ! corrupt config file
line = ''
section = 0
do while ( IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = material_partCrystallite ) ! wind forward to <crystallite>
read ( file , '(a1024)' , END = 100 ) line
enddo
do ! read thru sections of phase part
read ( file , '(a1024)' , END = 100 ) line
if ( IO_isBlank ( line ) ) cycle ! skip empty lines
if ( IO_getTag ( line , '<' , '>' ) / = '' ) exit ! stop at next part
if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
section = section + 1
output = 0 ! reset output counter
endif
if ( section > 0 ) then
positions = IO_stringPos ( line , maxNchunks )
tag = IO_lc ( IO_stringValue ( line , positions , 1 ) ) ! extract key
select case ( tag )
case ( '(output)' )
output = output + 1
crystallite_output ( output , section ) = IO_lc ( IO_stringValue ( line , positions , 2 ) )
end select
endif
enddo
100 close ( file )
do i = 1 , material_Ncrystallite ! sanity checks
enddo
do i = 1 , material_Ncrystallite
do j = 1 , crystallite_Noutput ( i )
select case ( crystallite_output ( j , i ) )
case ( 'phase' )
mySize = 1
case ( 'volume' )
mySize = 1
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case ( 'orientation' ) ! orientation as quaternion
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mySize = 4
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case ( 'eulerangles' ) ! Bunge Euler angles
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mySize = 3
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case ( 'grainrotation' ) ! Deviation from initial grain orientation in axis-angle form (angle in degrees)
mySize = 4
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case ( 'defgrad' )
mySize = 9
case default
mySize = 0
end select
if ( mySize > 0_pInt ) then ! any meaningful output found
crystallite_sizePostResult ( j , i ) = mySize
crystallite_sizePostResults ( i ) = crystallite_sizePostResults ( i ) + mySize
endif
enddo
enddo
crystallite_maxSizePostResults = maxval ( crystallite_sizePostResults )
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! write description file for crystallite output
if ( . not . IO_open_jobFile ( file , 'outputCrystallite' ) ) call IO_error ( 50 ) ! problems in writing file
do p = 1 , material_Ncrystallite
write ( file , * )
write ( file , '(a)' ) '[' / / trim ( crystallite_name ( p ) ) / / ']'
write ( file , * )
do e = 1 , crystallite_Noutput ( p )
write ( file , '(a,i4)' ) trim ( crystallite_output ( e , p ) ) / / char ( 9 ) , crystallite_sizePostResult ( e , p )
enddo
enddo
close ( file )
!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over all cp elements
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) ) ! look up homogenization-->grainCount
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element
do g = 1 , myNgrains
crystallite_partionedTemperature0 ( g , i , e ) = Temperature ! isothermal assumption
crystallite_Fp0 ( : , : , g , i , e ) = math_EulerToR ( material_EulerAngles ( : , g , i , e ) ) ! plastic def gradient reflects init orientation
crystallite_Fe ( : , : , g , i , e ) = transpose ( crystallite_Fp0 ( : , : , g , i , e ) )
crystallite_F0 ( : , : , g , i , e ) = math_I3
crystallite_partionedFp0 ( : , : , g , i , e ) = crystallite_Fp0 ( : , : , g , i , e )
crystallite_partionedF0 ( : , : , g , i , e ) = crystallite_F0 ( : , : , g , i , e )
crystallite_partionedF ( : , : , g , i , e ) = crystallite_F0 ( : , : , g , i , e )
crystallite_requested ( g , i , e ) = . true .
crystallite_localConstitution ( g , i , e ) = phase_localConstitution ( material_phase ( g , i , e ) )
enddo
enddo
enddo
!$OMPEND PARALLEL DO
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! Initialize crystallite_symmetryID(g,i,e)
!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , homogenization_Ngrains ( mesh_element ( 3 , e ) )
myPhase = material_phase ( g , i , e )
select case ( phase_constitution ( myPhase ) )
case ( constitutive_phenopowerlaw_label )
myStructure = constitutive_phenopowerlaw_structure ( phase_constitutionInstance ( myPhase ) )
case ( constitutive_dislotwin_label )
myStructure = constitutive_dislotwin_structure ( phase_constitutionInstance ( myPhase ) )
case ( constitutive_nonlocal_label )
myStructure = constitutive_nonlocal_structure ( phase_constitutionInstance ( myPhase ) )
case default
myStructure = - 1_pInt ! does this happen for j2 material?
end select
if ( myStructure > 0_pInt ) then
crystallite_symmetryID ( g , i , e ) = lattice_symmetryTypes ( myStructure ) ! structure = 1(fcc) or 2(bcc) => 1; 3(hex)=>2
endif
enddo
enddo
enddo
!$OMPEND PARALLEL DO
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call crystallite_orientations ( )
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crystallite_orientation0 = crystallite_orientation ! Store initial orientations for calculation of grain rotations
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call crystallite_stressAndItsTangent ( . true . ) ! request elastic answers
crystallite_fallbackdPdF = crystallite_dPdF ! use initial elastic stiffness as fallback
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! *** Output to MARC output file ***
!$OMP CRITICAL (write2out)
write ( 6 , * )
write ( 6 , * ) '<<<+- crystallite init -+>>>'
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write ( 6 , * ) '$Id$'
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write ( 6 , * )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Temperature: ' , shape ( crystallite_Temperature )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Fe: ' , shape ( crystallite_Fe )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Fp: ' , shape ( crystallite_Fp )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Lp: ' , shape ( crystallite_Lp )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_F0: ' , shape ( crystallite_F0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Fp0: ' , shape ( crystallite_Fp0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Lp0: ' , shape ( crystallite_Lp0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_partionedF: ' , shape ( crystallite_partionedF )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_partionedTemp0: ' , shape ( crystallite_partionedTemperature0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_partionedF0: ' , shape ( crystallite_partionedF0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_partionedFp0: ' , shape ( crystallite_partionedFp0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_partionedLp0: ' , shape ( crystallite_partionedLp0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subF: ' , shape ( crystallite_subF )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subTemperature0: ' , shape ( crystallite_subTemperature0 )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_symmetryID: ' , shape ( crystallite_symmetryID ) !NEW
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subF0: ' , shape ( crystallite_subF0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subFp0: ' , shape ( crystallite_subFp0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subLp0: ' , shape ( crystallite_subLp0 )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_P: ' , shape ( crystallite_P )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Tstar_v: ' , shape ( crystallite_Tstar_v )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_Tstar0_v: ' , shape ( crystallite_Tstar0_v )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_partionedTstar0_v: ' , shape ( crystallite_partionedTstar0_v )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subTstar0_v: ' , shape ( crystallite_subTstar0_v )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_dPdF: ' , shape ( crystallite_dPdF )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_fallbackdPdF: ' , shape ( crystallite_fallbackdPdF )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_orientation: ' , shape ( crystallite_orientation )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_orientation0: ' , shape ( crystallite_orientation0 )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_rotation: ' , shape ( crystallite_rotation )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_disorientation: ' , shape ( crystallite_disorientation )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_dt: ' , shape ( crystallite_dt )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subdt: ' , shape ( crystallite_subdt )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subFrac: ' , shape ( crystallite_subFrac )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_subStep: ' , shape ( crystallite_subStep )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_localConstitution: ' , shape ( crystallite_localConstitution )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_requested: ' , shape ( crystallite_requested )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_todo: ' , shape ( crystallite_todo )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_converged: ' , shape ( crystallite_converged )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_stateConverged: ' , shape ( crystallite_stateConverged )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_temperatureConverged: ' , shape ( crystallite_temperatureConverged )
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write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_sizePostResults: ' , shape ( crystallite_sizePostResults )
write ( 6 , '(a35,x,7(i5,x))' ) 'crystallite_sizePostResult: ' , shape ( crystallite_sizePostResult )
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write ( 6 , * )
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write ( 6 , * ) 'Number of nonlocal grains: ' , count ( . not . crystallite_localConstitution )
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call flush ( 6 )
!$OMPEND CRITICAL (write2out)
call debug_info ( )
call debug_reset ( )
return
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endsubroutine
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!********************************************************************
! calculate stress (P) and tangent (dPdF) for crystallites
!********************************************************************
subroutine crystallite_stressAndItsTangent ( updateJaco )
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!*** variables and functions from other modules ***!
use prec , only : pInt , &
pReal
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use numerics , only : subStepMinCryst , &
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subStepSizeCryst , &
stepIncreaseCryst , &
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pert_Fg , &
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pert_method , &
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nState , &
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nCryst , &
iJacoStiffness
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use debug , only : debugger , &
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selectiveDebugger , &
verboseDebugger , &
debug_e , &
debug_i , &
debug_g , &
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debug_CrystalliteLoopDistribution , &
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debug_CrystalliteStateLoopDistribution , &
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debug_StiffnessStateLoopDistribution
use IO , only : IO_warning
use math , only : math_inv3x3 , &
math_mul33x33 , &
math_mul66x6 , &
math_Mandel6to33 , &
math_Mandel33to6 , &
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math_I3 , &
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math_Plain3333to99
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use FEsolving , only : FEsolving_execElem , &
FEsolving_execIP , &
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theInc , &
cycleCounter
use mesh , only : mesh_element , &
mesh_NcpElems , &
mesh_maxNips
use material , only : homogenization_Ngrains , &
homogenization_maxNgrains
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use constitutive , only : constitutive_maxSizeState , &
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constitutive_maxSizeDotState , &
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constitutive_sizeState , &
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constitutive_sizeDotState , &
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constitutive_state , &
constitutive_subState0 , &
constitutive_partionedState0 , &
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constitutive_homogenizedC , &
constitutive_dotState , &
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constitutive_previousDotState , &
constitutive_previousDotState2 , &
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constitutive_collectDotState , &
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constitutive_dotTemperature , &
constitutive_microstructure
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implicit none
!*** input variables ***!
logical , intent ( in ) :: updateJaco ! flag indicating wehther we want to update the Jacobian (stiffness) or not
!*** output variables ***!
!*** local variables ***!
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real ( pReal ) myTemperature , & ! local copy of the temperature
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myPert ! perturbation with correct sign
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real ( pReal ) , dimension ( 3 , 3 ) :: invFp , & ! inverse of the plastic deformation gradient
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Fe_guess , & ! guess for elastic deformation gradient
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Tstar ! 2nd Piola-Kirchhoff stress tensor
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integer ( pInt ) NiterationCrystallite , & ! number of iterations in crystallite loop
NiterationState ! number of iterations in state loop
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integer ( pInt ) e , ee , & ! element index
i , ii , & ! integration point index
g , gg , & ! grain index
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k , &
l , &
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perturbation , & ! loop counter for forward,backward perturbation mode
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comp , &
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myNgrains , &
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mySizeState , &
mySizeDotState
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integer ( pInt ) , dimension ( 2 , 9 , homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
kl
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logical onTrack , & ! flag indicating whether we are still on track
temperatureConverged , & ! flag indicating if temperature converged
stateConverged , & ! flag indicating if state converged
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converged ! flag indicating if iteration converged
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real ( pReal ) , dimension ( 9 , 9 ) :: dPdF99
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real ( pReal ) , dimension ( 3 , 3 , 3 , 3 , 2 ) :: dPdF_perturbation
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real ( pReal ) , dimension ( constitutive_maxSizeDotState ) :: delta_dotState1 , & ! difference between current and previous dotstate
delta_dotState2 ! difference between previousDotState and previousDotState2
real ( pReal ) dot_prod12 , &
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dot_prod22 , &
formerSubStep
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real ( pReal ) , dimension ( 3 , 3 , homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
storedF , &
storedFp , &
storedInvFp , &
storedFe , &
storedLp , &
storedP
real ( pReal ) , dimension ( 6 , homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
storedTstar_v
real ( pReal ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
storedTemperature
real ( pReal ) , dimension ( constitutive_maxSizeState , homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
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storedState
real ( pReal ) , dimension ( constitutive_maxSizeDotState , homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
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storedDotState
logical , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) :: &
storedConvergenceFlag
logical , dimension ( 3 , 3 ) :: mask
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logical forceLocalStiffnessCalculation ! flag indicating that stiffness calculation is always done locally
forceLocalStiffnessCalculation = . false .
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! ------ initialize to starting condition ------
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!$OMP CRITICAL (write2out)
! write (6,*)
! write (6,*) 'Crystallite request from Materialpoint'
! write (6,'(a,/,(f12.7,x))') 'crystallite_partionedTemp0 of 1 1 1' ,crystallite_partionedTemperature0(1,1,1)
! write (6,'(a,/,3(3(f12.7,x)/))') 'crystallite_partionedF0 of 1 1 1' ,crystallite_partionedF0(1:3,:,1,1,1)
! write (6,'(a,/,3(3(f12.7,x)/))') 'crystallite_partionedFp0 of 1 1 1' ,crystallite_partionedFp0(1:3,:,1,1,1)
! write (6,'(a,/,3(3(f12.7,x)/))') 'crystallite_partionedF of 1 1 1' ,crystallite_partionedF(1:3,:,1,1,1)
! write (6,'(a,/,3(3(f12.7,x)/))') 'crystallite_partionedLp0 of 1 1 1' ,crystallite_partionedLp0(1:3,:,1,1,1)
!$OMPEND CRITICAL (write2out)
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crystallite_subStep = 0.0_pReal
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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if ( crystallite_requested ( g , i , e ) ) then ! initialize restoration point of ...
crystallite_subTemperature0 ( g , i , e ) = crystallite_partionedTemperature0 ( g , i , e ) ! ...temperature
constitutive_subState0 ( g , i , e ) % p = constitutive_partionedState0 ( g , i , e ) % p ! ...microstructure
crystallite_subFp0 ( : , : , g , i , e ) = crystallite_partionedFp0 ( : , : , g , i , e ) ! ...plastic def grad
crystallite_subLp0 ( : , : , g , i , e ) = crystallite_partionedLp0 ( : , : , g , i , e ) ! ...plastic velocity grad
crystallite_subF0 ( : , : , g , i , e ) = crystallite_partionedF0 ( : , : , g , i , e ) ! ...def grad
crystallite_subTstar0_v ( : , g , i , e ) = crystallite_partionedTstar0_v ( : , g , i , e ) !...2nd PK stress
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crystallite_subFrac ( g , i , e ) = 0.0_pReal
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crystallite_subStep ( g , i , e ) = 1.0_pReal / subStepSizeCryst
crystallite_todo ( g , i , e ) = . true .
crystallite_converged ( g , i , e ) = . false . ! pretend failed step of twice the required size
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endif
enddo
enddo
enddo
!$OMPEND PARALLEL DO
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! --+>> crystallite loop <<+--
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NiterationCrystallite = 0_pInt
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do while ( any ( crystallite_subStep ( : , : , FEsolving_execELem ( 1 ) : FEsolving_execElem ( 2 ) ) > subStepMinCryst ) ) ! cutback loop for crystallites
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_converged ( g , i , e ) ) then
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if ( debugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a21,f10.8,a32,f10.8,a35)' ) 'winding forward from ' , &
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crystallite_subFrac ( g , i , e ) , ' to current crystallite_subfrac ' , &
crystallite_subFrac ( g , i , e ) + crystallite_subStep ( g , i , e ) , ' in crystallite_stressAndItsTangent'
write ( 6 , * )
!$OMPEND CRITICAL (write2out)
endif
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crystallite_subFrac ( g , i , e ) = crystallite_subFrac ( g , i , e ) + crystallite_subStep ( g , i , e )
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formerSubStep = crystallite_subStep ( g , i , e )
crystallite_subStep ( g , i , e ) = min ( 1.0_pReal - crystallite_subFrac ( g , i , e ) , stepIncreaseCryst * crystallite_subStep ( g , i , e ) )
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if ( crystallite_subStep ( g , i , e ) > subStepMinCryst ) then
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crystallite_subTemperature0 ( g , i , e ) = crystallite_Temperature ( g , i , e ) ! wind forward...
crystallite_subF0 ( : , : , g , i , e ) = crystallite_subF ( : , : , g , i , e ) ! ...def grad
crystallite_subFp0 ( : , : , g , i , e ) = crystallite_Fp ( : , : , g , i , e ) ! ...plastic def grad
crystallite_subLp0 ( : , : , g , i , e ) = crystallite_Lp ( : , : , g , i , e ) ! ...plastic velocity gradient
constitutive_subState0 ( g , i , e ) % p = constitutive_state ( g , i , e ) % p ! ...microstructure
crystallite_subTstar0_v ( : , g , i , e ) = crystallite_Tstar_v ( : , g , i , e ) ! ...2nd PK stress
elseif ( formerSubStep > subStepMinCryst ) then ! this crystallite just converged
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!$OMP CRITICAL (distributionCrystallite)
debug_CrystalliteLoopDistribution ( min ( nCryst + 1 , NiterationCrystallite ) ) = &
debug_CrystalliteLoopDistribution ( min ( nCryst + 1 , NiterationCrystallite ) ) + 1
!$OMPEND CRITICAL (distributionCrystallite)
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endif
else
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crystallite_subStep ( g , i , e ) = subStepSizeCryst * crystallite_subStep ( g , i , e ) ! cut step in half and restore...
crystallite_Temperature ( g , i , e ) = crystallite_subTemperature0 ( g , i , e ) ! ...temperature
crystallite_Fp ( : , : , g , i , e ) = crystallite_subFp0 ( : , : , g , i , e ) ! ...plastic def grad
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crystallite_invFp ( : , : , g , i , e ) = math_inv3x3 ( crystallite_Fp ( : , : , g , i , e ) )
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crystallite_Lp ( : , : , g , i , e ) = crystallite_subLp0 ( : , : , g , i , e ) ! ...plastic velocity grad
constitutive_state ( g , i , e ) % p = constitutive_subState0 ( g , i , e ) % p ! ...microstructure
crystallite_Tstar_v ( : , g , i , e ) = crystallite_subTstar0_v ( : , g , i , e ) ! ...2nd PK stress
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if ( debugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a78,f10.8)' ) 'cutback step in crystallite_stressAndItsTangent with new crystallite_subStep: ' , &
crystallite_subStep ( g , i , e )
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write ( 6 , * )
!$OMPEND CRITICAL (write2out)
endif
endif
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crystallite_todo ( g , i , e ) = crystallite_subStep ( g , i , e ) > subStepMinCryst ! still on track or already done (beyond repair)
if ( crystallite_todo ( g , i , e ) ) then ! specify task (according to substep)
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crystallite_subF ( : , : , g , i , e ) = crystallite_subF0 ( : , : , g , i , e ) + &
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crystallite_subStep ( g , i , e ) * &
( crystallite_partionedF ( : , : , g , i , e ) - crystallite_partionedF0 ( : , : , g , i , e ) )
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crystallite_Fe ( : , : , g , i , e ) = math_mul33x33 ( crystallite_subF ( : , : , g , i , e ) , crystallite_invFp ( : , : , g , i , e ) )
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crystallite_subdt ( g , i , e ) = crystallite_subStep ( g , i , e ) * crystallite_dt ( g , i , e )
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crystallite_converged ( g , i , e ) = . false . ! start out non-converged
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endif
enddo
enddo
enddo
!$OMPEND PARALLEL DO
! --+>> preguess for state <<+--
!
! incrementing by crystallite_subdt
! based on constitutive_subState0
! results in constitutive_state
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! first loop for collection of state evolution based on old state
! second loop for updating to new state
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
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call constitutive_microstructure ( crystallite_Temperature ( g , i , e ) , crystallite_Tstar_v ( : , g , i , e ) , crystallite_Fe , &
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crystallite_Fp , g , i , e ) ! update dependent state variables to be consistent with basic states
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constitutive_previousDotState2 ( g , i , e ) % p = 0.0_pReal
constitutive_previousDotState ( g , i , e ) % p = 0.0_pReal
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constitutive_dotState ( g , i , e ) % p = 0.0_pReal ! zero out dotStates
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endif
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enddo ; enddo ; enddo
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!$OMPEND PARALLEL DO
!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
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call constitutive_collectDotState ( crystallite_Tstar_v ( : , g , i , e ) , crystallite_subTstar0_v ( : , g , i , e ) , &
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crystallite_Fe , crystallite_Fp , crystallite_Temperature ( g , i , e ) , &
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crystallite_disorientation ( : , : , g , i , e ) , crystallite_subdt ( g , i , e ) , g , i , e )
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endif
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enddo ; enddo ; enddo
!$OMPEND PARALLEL DO
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crystallite_statedamper = 1.0_pReal
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
crystallite_stateConverged ( g , i , e ) = crystallite_updateState ( g , i , e ) ! update state
crystallite_temperatureConverged ( g , i , e ) = crystallite_updateTemperature ( g , i , e ) ! update temperature
if ( . not . crystallite_localConstitution ( g , i , e ) &
. and . . not . crystallite_todo ( g , i , e ) ) & ! if broken non-local...
crystallite_todo = crystallite_todo . and . crystallite_localConstitution ! ...all non-locals skipped
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endif
enddo ; enddo ; enddo
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!$OMPEND PARALLEL DO
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! --+>> state loop <<+--
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NiterationState = 0_pInt
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do while ( any ( crystallite_todo ( : , : , FEsolving_execELem ( 1 ) : FEsolving_execElem ( 2 ) ) ) &
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. and . NiterationState < nState ) ! convergence loop for crystallite
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NiterationState = NiterationState + 1_pInt
! --+>> stress integration <<+--
!
! incrementing by crystallite_subdt
! based on crystallite_subF0,.._subFp0,.._subLp0
! constitutive_state is internally interpolated with .._subState0
! to account for substepping within _integrateStress
! results in crystallite_Fp,.._Lp
!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
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crystallite_todo ( g , i , e ) = crystallite_integrateStress ( g , i , e )
if ( . not . crystallite_localConstitution ( g , i , e ) &
. and . . not . crystallite_todo ( g , i , e ) ) & ! if broken non-local...
crystallite_todo = crystallite_todo . and . crystallite_localConstitution ! ...all non-locals skipped
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endif
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enddo ; enddo ; enddo
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!$OMPEND PARALLEL DO
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if ( verboseDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) count ( crystallite_todo ( : , : , : ) ) , 'grains todo after stress integration'
!$OMPEND CRITICAL (write2out)
endif
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! --+>> state integration <<+--
!
! incrementing by crystallite_subdt
! based on constitutive_subState0
! results in constitutive_state
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! first loop for collection of state evolution based on old state
! second loop for updating to new state
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
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constitutive_previousDotState2 ( g , i , e ) % p = constitutive_previousDotState ( g , i , e ) % p
constitutive_previousDotState ( g , i , e ) % p = constitutive_dotState ( g , i , e ) % p
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constitutive_dotState ( g , i , e ) % p = 0.0_pReal ! zero out dotState
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endif
enddo ; enddo ; enddo
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!$OMPEND PARALLEL DO
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crystallite_statedamper = 1.0_pReal
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
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call constitutive_collectDotState ( crystallite_Tstar_v ( : , g , i , e ) , crystallite_subTstar0_v ( : , g , i , e ) , &
crystallite_Fe , crystallite_Fp , crystallite_Temperature ( g , i , e ) , &
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crystallite_disorientation ( : , : , g , i , e ) , crystallite_subdt ( g , i , e ) , g , i , e )
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delta_dotState1 = constitutive_dotState ( g , i , e ) % p - constitutive_previousDotState ( g , i , e ) % p
delta_dotState2 = constitutive_previousDotState ( g , i , e ) % p - constitutive_previousDotState2 ( g , i , e ) % p
dot_prod12 = dot_product ( delta_dotState1 , delta_dotState2 )
dot_prod22 = dot_product ( delta_dotState2 , delta_dotState2 )
if ( dot_prod22 > 0.0_pReal &
. and . ( dot_prod12 < 0.0_pReal &
. or . dot_product ( constitutive_dotState ( g , i , e ) % p , constitutive_previousDotState ( g , i , e ) % p ) < 0.0_pReal ) ) &
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crystallite_statedamper ( g , i , e ) = 0.75_pReal + 0.25_pReal * tanh ( 2.0_pReal + 4.0_pReal * dot_prod12 / dot_prod22 )
endif
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enddo ; enddo ; enddo
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!$OMPEND PARALLEL DO
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!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_todo ( g , i , e ) ) then ! all undone crystallites
crystallite_stateConverged ( g , i , e ) = crystallite_updateState ( g , i , e ) ! update state
crystallite_temperatureConverged ( g , i , e ) = crystallite_updateTemperature ( g , i , e ) ! update temperature
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crystallite_converged ( g , i , e ) = crystallite_stateConverged ( g , i , e ) . and . crystallite_temperatureConverged ( g , i , e )
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if ( . not . crystallite_localConstitution ( g , i , e ) &
. and . . not . crystallite_todo ( g , i , e ) ) & ! if updateState signals broken non-local...
crystallite_todo = crystallite_todo . and . crystallite_localConstitution ! ...all non-locals skipped
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if ( crystallite_converged ( g , i , e ) ) then
!$OMP CRITICAL (distributionState)
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debug_CrystalliteStateLoopDistribution ( NiterationState ) = &
debug_CrystalliteStateLoopDistribution ( NiterationState ) + 1
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!$OMPEND CRITICAL (distributionState)
endif
endif
enddo
enddo
enddo
!$OMPEND PARALLEL DO
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if ( verboseDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) count ( crystallite_converged ( : , : , : ) ) , 'grains converged after state integration no.' , NiterationState
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write ( 6 , * )
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! write(6,'(8(L,x))') crystallite_converged(:,:,:)
! do e = FEsolving_execElem(1),FEsolving_execElem(2)
! if (any(.not. crystallite_converged(:,:,e))) &
! write(6,'(i4,8(x,L))') e, crystallite_converged(:,:,e)
! enddo
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!$OMPEND CRITICAL (write2out)
endif
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if ( any ( . not . crystallite_converged . and . . not . crystallite_localConstitution ) ) & ! any non-local not yet converged (or broken)...
crystallite_converged = crystallite_converged . and . crystallite_localConstitution ! ...restart all non-local as not converged
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crystallite_todo = crystallite_todo . and . . not . crystallite_converged ! skip all converged
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if ( verboseDebugger ) then
constitutive_nonlocal:
- read in activation energy for dislocation glide from material.config
- changed naming of dDipMin/Max to dLower/dUpper
- added new outputs: rho_dot, rho_dot_dip, rho_dot_gen, rho_dot_sgl2dip, rho_dot_dip2sgl, rho_dot_ann_ath, rho_dot_ann_the, rho_dot_flux, d_upper_edge, d_upper_screw, d_upper_dot_edge, d_upper_dot_screw
- poisson's ratio is now calculated from elastic constants
- microstrucutre has state as first argument, since this is our output variable
- periodic boundary conditions are taken into account for fluxes and internal stresses. for the moment, flag has to be set in constitutive_nonlocal.
- corrected calculation for dipole formation by glide
- added terms for dipole formation/annihilation by stress decrease/increase
constitutive:
- passing of arguments is adapted for constitutive_nonlocal model
crystallite:
- in stiffness calculation: call to collect_dotState used wrong arguments
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
homogenization:
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
IO:
- changed error message 229
material.config:
- changed example for nonlocal constitution according to constitutive_nonlocal
all:
- added some flush statements
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!$OMP CRITICAL (write2out)
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write ( 6 , * ) count ( crystallite_converged ( : , : , : ) ) , 'grains converged after non-local check'
write ( 6 , * ) count ( crystallite_todo ( : , : , : ) ) , 'grains todo after state integration no.' , NiterationState
constitutive_nonlocal:
- read in activation energy for dislocation glide from material.config
- changed naming of dDipMin/Max to dLower/dUpper
- added new outputs: rho_dot, rho_dot_dip, rho_dot_gen, rho_dot_sgl2dip, rho_dot_dip2sgl, rho_dot_ann_ath, rho_dot_ann_the, rho_dot_flux, d_upper_edge, d_upper_screw, d_upper_dot_edge, d_upper_dot_screw
- poisson's ratio is now calculated from elastic constants
- microstrucutre has state as first argument, since this is our output variable
- periodic boundary conditions are taken into account for fluxes and internal stresses. for the moment, flag has to be set in constitutive_nonlocal.
- corrected calculation for dipole formation by glide
- added terms for dipole formation/annihilation by stress decrease/increase
constitutive:
- passing of arguments is adapted for constitutive_nonlocal model
crystallite:
- in stiffness calculation: call to collect_dotState used wrong arguments
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
homogenization:
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
IO:
- changed error message 229
material.config:
- changed example for nonlocal constitution according to constitutive_nonlocal
all:
- added some flush statements
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write ( 6 , * )
!$OMPEND CRITICAL (write2out)
endif
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enddo ! crystallite convergence loop
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NiterationCrystallite = NiterationCrystallite + 1
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enddo ! cutback loop
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! ------ check for non-converged crystallites ------
!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
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myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
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do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
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do g = 1 , myNgrains
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if ( . not . crystallite_converged ( g , i , e ) ) then ! respond fully elastically (might be not required due to becoming terminally ill anyway)
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! call IO_warning(600,e,i,g)
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invFp = math_inv3x3 ( crystallite_partionedFp0 ( : , : , g , i , e ) )
Fe_guess = math_mul33x33 ( crystallite_partionedF ( : , : , g , i , e ) , invFp )
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Tstar = math_Mandel6to33 ( math_mul66x6 ( 0.5_pReal * constitutive_homogenizedC ( g , i , e ) , &
math_Mandel33to6 ( math_mul33x33 ( transpose ( Fe_guess ) , Fe_guess ) - math_I3 ) ) )
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crystallite_P ( : , : , g , i , e ) = math_mul33x33 ( Fe_guess , math_mul33x33 ( Tstar , transpose ( invFp ) ) )
endif
enddo
enddo
enddo
!$OMPEND PARALLEL DO
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! --+>> stiffness calculation <<+--
if ( updateJaco ) then ! Jacobian required
crystallite_statedamper = 1.0_pReal
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
do g = 1 , myNgrains
mySizeState = constitutive_sizeState ( g , i , e ) ! number of state variables for this grain
mySizeDotState = constitutive_sizeDotState ( g , i , e ) ! number of dotStates for this grain
storedState ( 1 : mySizeState , g , i , e ) = constitutive_state ( g , i , e ) % p ! remember unperturbed, converged state, ...
storedDotState ( 1 : mySizeDotState , g , i , e ) = constitutive_dotState ( g , i , e ) % p ! ... dotStates, ...
enddo ; enddo ; enddo
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storedTemperature = crystallite_Temperature ! ... Temperature, ...
storedF = crystallite_subF ! ... and kinematics
storedFp = crystallite_Fp
storedInvFp = crystallite_invFp
storedFe = crystallite_Fe
storedLp = crystallite_Lp
storedTstar_v = crystallite_Tstar_v
storedP = crystallite_P
storedConvergenceFlag = crystallite_converged
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if ( all ( crystallite_localConstitution ) . or . theInc < 1 . or . forceLocalStiffnessCalculation ) then ! all grains have local constitution, so local convergence of perturbed grain is sufficient
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!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 ) ! iterate over elements to be processed
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e ) ! iterate over IPs of this element to be processed
do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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if ( crystallite_requested ( g , i , e ) ) then ! first check whether is requested at all!
if ( crystallite_converged ( g , i , e ) ) then ! grain converged in above iteration
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) '#############'
write ( 6 , * ) 'central solution of cryst_StressAndTangent'
write ( 6 , * ) '#############'
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write ( 6 , '(a8,3(x,i4),/,3(3(f12.4,x)/))' ) ' P of' , g , i , e , storedP ( 1 : 3 , : , g , i , e ) / 1e6
write ( 6 , '(a8,3(x,i4),/,3(3(f12.8,x)/))' ) ' Fp of' , g , i , e , storedFp ( 1 : 3 , : , g , i , e )
write ( 6 , '(a8,3(x,i4),/,3(3(f12.8,x)/))' ) ' Lp of' , g , i , e , storedLp ( 1 : 3 , : , g , i , e )
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!$OMPEND CRITICAL (write2out)
endif
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do perturbation = 1 , 2
if ( iand ( pert_method , perturbation ) > 0 ) then
myPert = - pert_Fg * ( - 1.0_pReal ) ** perturbation ! forward or backward perturbation
do k = 1 , 3 ! perturbation...
do l = 1 , 3 ! ...components to the positive direction
crystallite_subF ( k , l , g , i , e ) = crystallite_subF ( k , l , g , i , e ) + myPert ! perturb single component (either forward or backward)
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(i1,x,i1)' ) k , l
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write ( 6 , '(a8,3(x,i4),/,3(3(f12.6,x)/))' ) 'pertF of' , g , i , e , crystallite_subF ( 1 : 3 , : , g , i , e )
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!$OMPEND CRITICAL (write2out)
endif
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onTrack = . true .
converged = . false .
NiterationState = 0_pInt
do while ( . not . converged . and . onTrack . and . NiterationState < nState ) ! keep cycling until done (potentially non-converged)
NiterationState = NiterationState + 1_pInt
onTrack = crystallite_integrateStress ( g , i , e ) ! stress of perturbed situation (overwrites _P,_Tstar_v,_Fp,_Lp,_Fe)
if ( onTrack ) then
constitutive_dotState ( g , i , e ) % p = 0.0_pReal
call constitutive_collectDotState ( crystallite_Tstar_v ( : , g , i , e ) , crystallite_subTstar0_v ( : , g , i , e ) , &
crystallite_Fe , crystallite_Fp , crystallite_Temperature ( g , i , e ) , &
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crystallite_disorientation ( : , : , g , i , e ) , crystallite_subdt ( g , i , e ) , &
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g , i , e )
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stateConverged = crystallite_updateState ( g , i , e ) ! update state
temperatureConverged = crystallite_updateTemperature ( g , i , e ) ! update temperature
converged = stateConverged . and . temperatureConverged
endif
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) '-------------'
write ( 6 , '(a,x,l,x,l)' ) 'ontrack + converged:' , onTrack , converged
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write ( 6 , '(a12,3(x,i4),/,3(3(f12.4,x)/))' ) 'pertP/MPa of' , g , i , e , crystallite_P ( 1 : 3 , : , g , i , e ) / 1e6
write ( 6 , '(a12,3(x,i4),/,3(3(f12.4,x)/))' ) 'DP/MPa of' , g , i , e , &
( crystallite_P ( 1 : 3 , : , g , i , e ) - storedP ( 1 : 3 , : , g , i , e ) ) / 1e6
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!$OMPEND CRITICAL (write2out)
endif
enddo
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if ( converged ) & ! converged state warrants stiffness update
dPdF_perturbation ( : , : , k , l , perturbation ) = ( crystallite_P ( : , : , g , i , e ) - storedP ( : , : , g , i , e ) ) / myPert ! tangent dP_ij/dFg_kl
mySizeState = constitutive_sizeState ( g , i , e ) ! number of state variables for this grain
mySizeDotState = constitutive_sizeDotState ( g , i , e ) ! number of dotStates for this grain
constitutive_state ( g , i , e ) % p = storedState ( 1 : mySizeState , g , i , e )
constitutive_dotState ( g , i , e ) % p = storedDotState ( 1 : mySizeDotState , g , i , e )
crystallite_Temperature ( g , i , e ) = storedTemperature ( g , i , e )
crystallite_subF ( : , : , g , i , e ) = storedF ( : , : , g , i , e )
crystallite_Fp ( : , : , g , i , e ) = storedFp ( : , : , g , i , e )
crystallite_invFp ( : , : , g , i , e ) = storedInvFp ( : , : , g , i , e )
crystallite_Fe ( : , : , g , i , e ) = storedFe ( : , : , g , i , e )
crystallite_Lp ( : , : , g , i , e ) = storedLp ( : , : , g , i , e )
crystallite_Tstar_v ( : , g , i , e ) = storedTstar_v ( : , g , i , e )
crystallite_P ( : , : , g , i , e ) = storedP ( : , : , g , i , e )
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!$OMP CRITICAL (out)
debug_StiffnessStateLoopDistribution ( NiterationState ) = &
debug_StiffnessstateLoopDistribution ( NiterationState ) + 1
!$OMPEND CRITICAL (out)
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enddo ; enddo
endif
enddo ! perturbation direction
select case ( pert_method )
case ( 1 )
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crystallite_dPdF ( : , : , : , : , g , i , e ) = dPdF_perturbation ( : , : , : , : , 1 )
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case ( 2 )
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crystallite_dPdF ( : , : , : , : , g , i , e ) = dPdF_perturbation ( : , : , : , : , 2 )
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case ( 3 )
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crystallite_dPdF ( : , : , : , : , g , i , e ) = 0.5_pReal * ( dPdF_perturbation ( : , : , : , : , 1 ) + dPdF_perturbation ( : , : , : , : , 2 ) )
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end select
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else ! grain did not converge
crystallite_dPdF ( : , : , : , : , g , i , e ) = crystallite_fallbackdPdF ( : , : , : , : , g , i , e ) ! use (elastic) fallback
endif ! grain convergence
endif ! grain request
enddo ! grain loop
enddo ! ip loop
enddo ! element loop
!$OMPEND PARALLEL DO
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elseif ( any ( . not . crystallite_localConstitution ) ) then ! if any nonlocal grain present, we have to do a full loop over all grains after each perturbance
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
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selectiveDebugger = ( e == debug_e . and . i == debug_i . and . g == debug_g )
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mask = . true .
do comp = 1 , 9
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kl ( : , comp , g , i , e ) = maxloc ( abs ( crystallite_subF ( : , : , g , i , e ) - crystallite_F0 ( : , : , g , i , e ) ) , mask ) ! map from component to array indices for F (sorted in descending order of abs(deltaF))
mask ( kl ( 1 , comp , g , i , e ) , kl ( 2 , comp , g , i , e ) ) = . false .
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enddo
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k = kl ( 1 , mod ( cycleCounter / iJacoStiffness , 9 ) + 1 , g , i , e ) ! perturb components in the descending order of change in F (-> component with biggest change in F is perturbed in first cycle, component with second biggest change in next cycle, ...)
l = kl ( 2 , mod ( cycleCounter / iJacoStiffness , 9 ) + 1 , g , i , e )
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) 'perturb component ' , k , l
!$OMPEND CRITICAL (write2out)
endif
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crystallite_subF ( k , l , g , i , e ) = crystallite_subF ( k , l , g , i , e ) + pert_Fg ! perturb single component
enddo ; enddo ; enddo
!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
if ( crystallite_todo ( g , i , e ) ) then
crystallite_stateConverged ( g , i , e ) = crystallite_updateState ( g , i , e ) ! preguess for state
crystallite_temperatureConverged ( g , i , e ) = crystallite_updateTemperature ( g , i , e )
if ( . not . crystallite_localConstitution ( g , i , e ) &
. and . . not . crystallite_todo ( g , i , e ) ) & ! if broken non-local...
crystallite_todo = crystallite_todo . and . crystallite_localConstitution ! ...all non-locals skipped
endif
enddo ; enddo ; enddo
!$OMPEND PARALLEL DO
NiterationState = 0_pInt
crystallite_todo = . true .
do while ( any ( crystallite_todo ( : , : , FEsolving_execELem ( 1 ) : FEsolving_execElem ( 2 ) ) ) . and . NiterationState < nState )
NiterationState = NiterationState + 1_pInt
!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
if ( crystallite_todo ( g , i , e ) ) then
crystallite_todo ( g , i , e ) = crystallite_integrateStress ( g , i , e ) ! stress integration
if ( . not . crystallite_localConstitution ( g , i , e ) &
. and . . not . crystallite_todo ( g , i , e ) ) & ! if broken non-local...
crystallite_todo = crystallite_todo . and . crystallite_localConstitution ! ...all non-locals skipped
endif
enddo ; enddo ; enddo
!$OMPEND PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
if ( crystallite_todo ( g , i , e ) ) &
constitutive_dotState ( g , i , e ) % p = 0.0_pReal ! zero out dotState
enddo ; enddo ; enddo
crystallite_statedamper = 1.0_pReal
!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
if ( crystallite_todo ( g , i , e ) ) then
call constitutive_collectDotState ( crystallite_Tstar_v ( : , g , i , e ) , crystallite_subTstar0_v ( : , g , i , e ) , &
crystallite_Fe , crystallite_Fp , crystallite_Temperature ( g , i , e ) , &
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crystallite_disorientation ( : , : , g , i , e ) , crystallite_subdt ( g , i , e ) , &
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g , i , e ) ! collect dot state
delta_dotState1 = constitutive_dotState ( g , i , e ) % p - constitutive_previousDotState ( g , i , e ) % p
delta_dotState2 = constitutive_previousDotState ( g , i , e ) % p - constitutive_previousDotState2 ( g , i , e ) % p
dot_prod12 = dot_product ( delta_dotState1 , delta_dotState2 )
dot_prod22 = dot_product ( delta_dotState2 , delta_dotState2 )
if ( dot_prod22 > 0.0_pReal &
. and . ( dot_prod12 < 0.0_pReal &
. or . dot_product ( constitutive_dotState ( g , i , e ) % p , constitutive_previousDotState ( g , i , e ) % p ) < 0.0_pReal ) ) &
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crystallite_statedamper ( g , i , e ) = 0.75_pReal + 0.25_pReal * tanh ( 2.0_pReal + 4.0_pReal * dot_prod12 / dot_prod22 )
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endif
enddo ; enddo ; enddo
!$OMPEND PARALLEL DO
!$OMP PARALLEL DO
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
if ( crystallite_todo ( g , i , e ) ) then
crystallite_stateConverged ( g , i , e ) = crystallite_updateState ( g , i , e ) ! update state
crystallite_temperatureConverged ( g , i , e ) = crystallite_updateTemperature ( g , i , e ) ! update temperature
crystallite_converged ( g , i , e ) = crystallite_stateConverged ( g , i , e ) &
. and . crystallite_temperatureConverged ( g , i , e )
if ( . not . crystallite_localConstitution ( g , i , e ) &
. and . . not . crystallite_todo ( g , i , e ) ) & ! if updateState signals broken non-local...
crystallite_todo = crystallite_todo . and . crystallite_localConstitution ! ...all non-locals skipped
endif
enddo ; enddo ; enddo
!$OMPEND PARALLEL DO
if ( any ( . not . crystallite_converged . and . . not . crystallite_localConstitution ) ) & ! any non-local not yet converged?
crystallite_converged = crystallite_converged . and . crystallite_localConstitution ! all non-local not converged
crystallite_todo = crystallite_todo . and . . not . crystallite_converged ! skip all converged
enddo
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
if ( crystallite_converged ( g , i , e ) ) then ! if stiffness calculation converged...
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k = kl ( 1 , mod ( cycleCounter / iJacoStiffness , 9 ) + 1 , g , i , e )
l = kl ( 2 , mod ( cycleCounter / iJacoStiffness , 9 ) + 1 , g , i , e )
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crystallite_dPdF ( : , : , k , l , g , i , e ) = ( crystallite_P ( : , : , g , i , e ) - storedP ( : , : , g , i , e ) ) / pert_Fg ! ... use tangent dP_ij/dFg_kl
elseif ( . not . storedConvergenceFlag ( g , i , e ) ) then ! if crystallite didn<64> t converge before...
crystallite_dPdF ( : , : , : , : , g , i , e ) = crystallite_fallbackdPdF ( : , : , : , : , g , i , e ) ! ... use (elastic) fallback
endif
enddo ; enddo ; enddo
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
myNgrains = homogenization_Ngrains ( mesh_element ( 3 , e ) )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , myNgrains
mySizeState = constitutive_sizeState ( g , i , e )
mySizeDotState = constitutive_sizeDotState ( g , i , e )
constitutive_state ( g , i , e ) % p = storedState ( 1 : mySizeState , g , i , e )
constitutive_dotState ( g , i , e ) % p = storedDotState ( 1 : mySizeDotState , g , i , e )
enddo ; enddo ; enddo
crystallite_Temperature = storedTemperature
crystallite_subF = storedF
crystallite_Fp = storedFp
crystallite_invFp = storedInvFp
crystallite_Fe = storedFe
crystallite_Lp = storedLp
crystallite_Tstar_v = storedTstar_v
crystallite_P = storedP
!$OMP CRITICAL (out)
debug_StiffnessStateLoopDistribution ( NiterationState ) = debug_StiffnessstateLoopDistribution ( NiterationState ) + 1
!$OMPEND CRITICAL (out)
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crystallite_converged = storedConvergenceFlag
endif
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endif ! jacobian calculation
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endsubroutine
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!********************************************************************
! update the internal state of the constitutive law
! and tell whether state has converged
!********************************************************************
function crystallite_updateState ( &
g , & ! grain number
i , & ! integration point number
e & ! element number
)
!*** variables and functions from other modules ***!
use prec , only : pReal , &
pInt , &
pLongInt
use numerics , only : rTol_crystalliteState
use constitutive , only : constitutive_dotState , &
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constitutive_previousDotState , &
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constitutive_sizeDotState , &
constitutive_subState0 , &
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constitutive_state , &
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constitutive_relevantState , &
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constitutive_microstructure
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use debug , only : debugger , &
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selectiveDebugger , &
verboseDebugger
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use FEsolving , only : cycleCounter , theInc
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!*** input variables ***!
integer ( pInt ) , intent ( in ) :: e , & ! element index
i , & ! integration point index
g ! grain index
!*** output variables ***!
logical crystallite_updateState ! flag indicating if integration suceeded
!*** local variables ***!
real ( pReal ) , dimension ( constitutive_sizeDotState ( g , i , e ) ) :: residuum ! residuum from evolution of microstructure
integer ( pInt ) mySize
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mySize = constitutive_sizeDotState ( g , i , e )
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! correct my dotState
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constitutive_dotState ( g , i , e ) % p ( 1 : mySize ) = constitutive_dotState ( g , i , e ) % p ( 1 : mySize ) * crystallite_statedamper ( g , i , e ) &
+ constitutive_previousDotState ( g , i , e ) % p ( 1 : mySize ) * ( 1.0_pReal - crystallite_statedamper ( g , i , e ) )
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! calculate the residuum
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residuum = constitutive_state ( g , i , e ) % p ( 1 : mySize ) - constitutive_subState0 ( g , i , e ) % p ( 1 : mySize ) &
- constitutive_dotState ( g , i , e ) % p ( 1 : mySize ) * crystallite_subdt ( g , i , e )
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if ( any ( residuum / = residuum ) ) then ! if NaN occured then return without changing the state...
crystallite_updateState = . false . ! ...indicate state update failed
crystallite_todo ( g , i , e ) = . false . ! ...no need to calculate any further
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if ( verboseDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) '::: updateState encountered NaN' , g , i , e
!$OMPEND CRITICAL (write2out)
endif
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return
endif
! update the microstructure
constitutive_state ( g , i , e ) % p ( 1 : mySize ) = constitutive_state ( g , i , e ) % p ( 1 : mySize ) - residuum
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call constitutive_microstructure ( crystallite_Temperature ( g , i , e ) , crystallite_Tstar_v ( : , g , i , e ) , crystallite_Fe , crystallite_Fp , &
g , i , e )
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! setting flag to true if state is below relative tolerance, otherwise set it to false
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crystallite_updateState = all ( constitutive_state ( g , i , e ) % p ( 1 : mySize ) < constitutive_relevantState ( g , i , e ) % p ( 1 : mySize ) &
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. or . abs ( residuum ) < rTol_crystalliteState * abs ( constitutive_state ( g , i , e ) % p ( 1 : mySize ) ) )
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
if ( crystallite_updateState ) then
write ( 6 , * ) '::: updateState converged' , g , i , e
else
write ( 6 , * ) '::: updateState did not converge' , g , i , e
endif
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write ( 6 , * )
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write ( 6 , '(a,f6.1)' ) 'crystallite_statedamper' , crystallite_statedamper ( g , i , e )
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write ( 6 , * )
write ( 6 , '(a,/,12(e12.5,x))' ) 'dotState' , constitutive_dotState ( g , i , e ) % p ( 1 : mySize )
write ( 6 , * )
write ( 6 , '(a,/,12(e12.5,x))' ) 'new state' , constitutive_state ( g , i , e ) % p ( 1 : mySize )
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write ( 6 , * )
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write ( 6 , '(a,/,12(f12.1,x))' ) 'resid tolerance' , abs ( residuum / rTol_crystalliteState / constitutive_state ( g , i , e ) % p ( 1 : mySize ) )
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write ( 6 , * )
!$OMPEND CRITICAL (write2out)
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endif
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return
endfunction
!********************************************************************
! update the temperature of the grain
! and tell whether it has converged
!********************************************************************
function crystallite_updateTemperature ( &
g , & ! grain number
i , & ! integration point number
e & ! element number
)
!*** variables and functions from other modules ***!
use prec , only : pReal , &
pInt , &
pLongInt
use numerics , only : rTol_crystalliteTemperature
use constitutive , only : constitutive_dotTemperature
use debug , only : debugger , &
debug_cumDotTemperatureCalls , &
debug_cumDotTemperatureTicks
!*** input variables ***!
integer ( pInt ) , intent ( in ) :: e , & ! element index
i , & ! integration point index
g ! grain index
!*** output variables ***!
logical crystallite_updateTemperature ! flag indicating if integration suceeded
!*** local variables ***!
real ( pReal ) residuum ! residuum from evolution of temperature
integer ( pLongInt ) tick , &
tock , &
tickrate , &
maxticks
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! calculate the residuum
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call system_clock ( count = tick , count_rate = tickrate , count_max = maxticks )
residuum = crystallite_Temperature ( g , i , e ) - crystallite_subTemperature0 ( g , i , e ) - &
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crystallite_subdt ( g , i , e ) * &
constitutive_dotTemperature ( crystallite_Tstar_v ( : , g , i , e ) , crystallite_Temperature ( g , i , e ) , g , i , e )
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call system_clock ( count = tock , count_rate = tickrate , count_max = maxticks )
debug_cumDotTemperatureCalls = debug_cumDotTemperatureCalls + 1_pInt
debug_cumDotTemperatureTicks = debug_cumDotTemperatureTicks + tock - tick
if ( tock < tick ) debug_cumDotTemperatureTicks = debug_cumDotTemperatureTicks + maxticks
! if NaN occured then return without changing the state
if ( residuum / = residuum ) then
crystallite_updateTemperature = . false . ! indicate update failed
!$OMP CRITICAL (write2out)
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write ( 6 , * ) '::: updateTemperature encountered NaN' , g , i , e
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!$OMPEND CRITICAL (write2out)
return
endif
! update the microstructure
crystallite_Temperature ( g , i , e ) = crystallite_Temperature ( g , i , e ) - residuum
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! setting flag to true if residuum is below relative tolerance (or zero Kelvin), otherwise set it to false
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crystallite_updateTemperature = crystallite_Temperature ( g , i , e ) == 0.0_pReal . or . &
abs ( residuum ) < rTol_crystalliteTemperature * crystallite_Temperature ( g , i , e )
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return
endfunction
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!***********************************************************************
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!*** calculation of stress (P) with time integration ***
!*** based on a residuum in Lp and intermediate ***
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!*** acceleration of the Newton-Raphson correction ***
!***********************************************************************
function crystallite_integrateStress ( &
g , & ! grain number
i , & ! integration point number
e ) ! element number
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!*** variables and functions from other modules ***!
use prec , only : pReal , &
pInt , &
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pLongInt
use numerics , only : nStress , &
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aTol_crystalliteStress , &
rTol_crystalliteStress , &
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iJacoLpresiduum , &
relevantStrain
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use debug , only : debugger , &
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selectiveDebugger , &
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verboseDebugger , &
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debug_cumLpCalls , &
debug_cumLpTicks , &
debug_StressLoopDistribution
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use constitutive , only : constitutive_homogenizedC , &
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constitutive_LpAndItsTangent
use math , only : math_mul33x33 , &
math_mul66x6 , &
math_mul99x99 , &
math_inv3x3 , &
math_invert3x3 , &
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math_invert , &
math_det3x3 , &
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math_I3 , &
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math_identity2nd , &
math_Mandel66to3333 , &
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math_Mandel6to33 , &
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math_mandel33to6
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implicit none
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!*** input variables ***!
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integer ( pInt ) , intent ( in ) :: e , & ! element index
i , & ! integration point index
g ! grain index
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!*** output variables ***!
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logical crystallite_integrateStress ! flag indicating if integration suceeded
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!*** local variables ***!
real ( pReal ) , dimension ( 3 , 3 ) :: Fg_new , & ! deformation gradient at end of timestep
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Fp_current , & ! plastic deformation gradient at start of timestep
Fp_new , & ! plastic deformation gradient at end of timestep
Fe_new , & ! elastic deformation gradient at end of timestep
invFp_new , & ! inverse of Fp_new
invFp_current , & ! inverse of Fp_current
Lpguess , & ! current guess for plastic velocity gradient
Lpguess_old , & ! known last good guess for plastic velocity gradient
Lp_constitutive , & ! plastic velocity gradient resulting from constitutive law
residuum , & ! current residuum of plastic velocity gradient
residuum_old , & ! last residuum of plastic velocity gradient
A , &
B , &
BT , &
AB , &
BTA
real ( pReal ) , dimension ( 6 ) :: Tstar_v ! 2nd Piola-Kirchhoff Stress in Mandel-Notation
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real ( pReal ) , dimension ( 9 , 9 ) :: dLpdT_constitutive , & ! partial derivative of plastic velocity gradient calculated by constitutive law
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dTdLp , & ! partial derivative of 2nd Piola-Kirchhoff stress
dRdLp , & ! partial derivative of residuum (Jacobian for NEwton-Raphson scheme)
invdRdLp ! inverse of dRdLp
real ( pReal ) , dimension ( 3 , 3 , 3 , 3 ) :: C ! 4th rank elasticity tensor
real ( pReal ) , dimension ( 6 , 6 ) :: C_66 ! simplified 2nd rank elasticity tensor
real ( pReal ) p_hydro , & ! volumetric part of 2nd Piola-Kirchhoff Stress
det , & ! determinant
leapfrog , & ! acceleration factor for Newton-Raphson scheme
maxleap ! maximum acceleration factor
logical error ! flag indicating an error
integer ( pInt ) NiterationStress , & ! number of stress integrations
dummy , &
h , &
j , &
k , &
l , &
m , &
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n , &
jacoCounter ! counter to check for Jacobian update
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integer ( pLongInt ) tick , &
tock , &
tickrate , &
maxticks
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! be pessimistic
crystallite_integrateStress = . false .
! feed local variables
Fg_new = crystallite_subF ( : , : , g , i , e )
Fp_current = crystallite_subFp0 ( : , : , g , i , e )
Tstar_v = crystallite_Tstar_v ( : , g , i , e )
Lpguess_old = crystallite_Lp ( : , : , g , i , e ) ! consider present Lp good (i.e. worth remembering) ...
Lpguess = crystallite_Lp ( : , : , g , i , e ) ! ... and take it as first guess
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! inversion of Fp_current...
invFp_current = math_inv3x3 ( Fp_current )
if ( all ( invFp_current == 0.0_pReal ) ) then ! ... failed?
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
write ( 6 , * ) '::: integrateStress failed on invFp_current inversion' , g , i , e
write ( 6 , * )
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write ( 6 , '(a11,i3,x,i2,x,i5,/,3(3(f12.7,x)/))' ) 'invFp_new at ' , g , i , e , invFp_new
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!$OMPEND CRITICAL (write2out)
endif
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return
endif
A = math_mul33x33 ( transpose ( invFp_current ) , math_mul33x33 ( transpose ( Fg_new ) , math_mul33x33 ( Fg_new , invFp_current ) ) )
! get elasticity tensor
C_66 = constitutive_homogenizedC ( g , i , e )
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! if (debugger) write(6,'(a,/,6(6(f10.4,x)/))') 'elasticity',C_66(1:6,:)/1e9
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C = math_Mandel66to3333 ( C_66 )
! start LpLoop with no acceleration
NiterationStress = 0_pInt
leapfrog = 1.0_pReal
maxleap = 102 4.0_pReal
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jacoCounter = 0_pInt
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LpLoop : do
! increase loop counter
NiterationStress = NiterationStress + 1
! too many loops required ?
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if ( NiterationStress > nStress ) then
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if ( verboseDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , * ) '::: integrateStress reached loop limit at ' , g , i , e
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write ( 6 , * )
!$OMPEND CRITICAL (write2out)
endif
return
endif
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B = math_I3 - crystallite_subdt ( g , i , e ) * Lpguess
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BT = transpose ( B )
AB = math_mul33x33 ( A , B )
BTA = math_mul33x33 ( BT , A )
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! calculate 2nd Piola-Kirchhoff stress tensor
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Tstar_v = 0.5_pReal * math_mul66x6 ( C_66 , math_mandel33to6 ( math_mul33x33 ( BT , AB ) - math_I3 ) )
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p_hydro = sum ( Tstar_v ( 1 : 3 ) ) / 3.0_pReal
forall ( n = 1 : 3 ) Tstar_v ( n ) = Tstar_v ( n ) - p_hydro ! get deviatoric stress tensor
! calculate plastic velocity gradient and its tangent according to constitutive law
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call system_clock ( count = tick , count_rate = tickrate , count_max = maxticks )
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call constitutive_LpAndItsTangent ( Lp_constitutive , dLpdT_constitutive , Tstar_v , crystallite_Temperature ( g , i , e ) , g , i , e )
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call system_clock ( count = tock , count_rate = tickrate , count_max = maxticks )
debug_cumLpCalls = debug_cumLpCalls + 1_pInt
debug_cumLpTicks = debug_cumLpTicks + tock - tick
if ( tock < tick ) debug_cumLpTicks = debug_cumLpTicks + maxticks
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a,i3,x,i2,x,i5,x,a,x,i3)' ) '::: integrateStress at ' , g , i , e , ' ; iteration ' , NiterationStress
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write ( 6 , * )
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write ( 6 , '(a,/,3(3(e20.7,x)/))' ) 'Lp_constitutive' , Lp_constitutive
write ( 6 , '(a,/,3(3(e20.7,x)/))' ) 'Lpguess' , Lpguess
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!$OMPEND CRITICAL (write2out)
endif
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! update current residuum
residuum = Lpguess - Lp_constitutive
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! Check for convergence of loop
if ( . not . ( any ( residuum / = residuum ) ) . and . & ! exclude any NaN in residuum
( maxval ( abs ( residuum ) ) < aTol_crystalliteStress . or . & ! below absolute tolerance .or.
( any ( abs ( crystallite_subdt ( g , i , e ) * Lpguess ) > relevantStrain ) . and . & ! worth checking? .and.
maxval ( abs ( residuum / Lpguess ) , abs ( crystallite_subdt ( g , i , e ) * Lpguess ) > relevantStrain ) < rTol_crystalliteStress & ! below relative tolerance
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) &
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) &
) &
exit LpLoop
! NaN occured at regular speed?
if ( any ( residuum / = residuum ) . and . leapfrog == 1.0 ) then
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if ( verboseDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a,i3,x,i2,x,i5,x,a,x,i3)' ) '::: integrateStress encountered NaN at ' , g , i , e , ' ; iteration ' , NiterationStress
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!$OMPEND CRITICAL (write2out)
endif
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return
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! something went wrong at accelerated speed?
elseif ( leapfrog > 1.0_pReal . and . & ! at fast pace .and.
( sum ( residuum * residuum ) > sum ( residuum_old * residuum_old ) . or . & ! worse residuum .or.
sum ( residuum * residuum_old ) < 0.0_pReal . or . & ! residuum changed sign (overshoot) .or.
any ( residuum / = residuum ) & ! NaN occured
) &
) then
maxleap = 0.5_pReal * leapfrog ! limit next acceleration
leapfrog = 1.0_pReal ! grinding halt
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jacoCounter = 0_pInt ! reset counter for Jacobian update (we want to do an update next time!)
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! restore old residuum and Lp
Lpguess = Lpguess_old
residuum = residuum_old
! residuum got better
else
! calculate Jacobian for correction term
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if ( mod ( jacoCounter , iJacoLpresiduum ) == 0_pInt ) then
dTdLp = 0.0_pReal
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forall ( h = 1 : 3 , j = 1 : 3 , k = 1 : 3 , l = 1 : 3 , m = 1 : 3 ) &
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dTdLp ( 3 * ( h - 1 ) + j , 3 * ( k - 1 ) + l ) = dTdLp ( 3 * ( h - 1 ) + j , 3 * ( k - 1 ) + l ) + C ( h , j , l , m ) * AB ( k , m ) + C ( h , j , m , l ) * BTA ( m , k )
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dTdLp = - 0.5_pReal * crystallite_subdt ( g , i , e ) * dTdLp
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dRdLp = math_identity2nd ( 9 ) - math_mul99x99 ( dLpdT_constitutive , dTdLp )
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invdRdLp = 0.0_pReal
call math_invert ( 9 , dRdLp , invdRdLp , dummy , error ) ! invert dR/dLp --> dLp/dR
if ( error ) then
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a,i3,x,i2,x,i5,x,a,x,i3)' ) '::: integrateStress failed on dR/dLp inversion at ' , g , i , e , ' ; iteration ' , NiterationStress
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write ( 6 , * )
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write ( 6 , '(a,/,9(9(e15.3,x)/))' ) 'dRdLp' , dRdLp
write ( 6 , '(a,/,9(9(e15.3,x)/))' ) 'dLpdT_constitutive' , dLpdT_constitutive
write ( 6 , '(a,/,3(3(e20.7,x)/))' ) 'Lp_constitutive' , Lp_constitutive
write ( 6 , '(a,/,3(3(e20.7,x)/))' ) 'Lpguess' , Lpguess
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!$OMPEND CRITICAL (write2out)
endif
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return
endif
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endif
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jacoCounter = jacoCounter + 1_pInt ! increase counter for jaco update
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! remember current residuum and Lpguess
residuum_old = residuum
Lpguess_old = Lpguess
! accelerate?
if ( NiterationStress > 1 . and . leapfrog < maxleap ) leapfrog = 2.0_pReal * leapfrog
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endif
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! leapfrog to updated Lp
forall ( k = 1 : 3 , l = 1 : 3 , m = 1 : 3 , n = 1 : 3 ) &
Lpguess ( k , l ) = Lpguess ( k , l ) - leapfrog * invdRdLp ( 3 * ( k - 1 ) + l , 3 * ( m - 1 ) + n ) * residuum ( m , n )
enddo LpLoop
! calculate new plastic and elastic deformation gradient
invFp_new = math_mul33x33 ( invFp_current , B )
invFp_new = invFp_new / math_det3x3 ( invFp_new ) ** ( 1.0_pReal / 3.0_pReal ) ! regularize by det
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call math_invert3x3 ( invFp_new , Fp_new , det , error )
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if ( error ) then
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a,i3,x,i2,x,i5,x,a,x,i3)' ) '::: integrateStress failed on invFp_new inversion at ' , g , i , e , ' ; iteration ' , NiterationStress
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write ( 6 , * )
write ( 6 , '(a11,3(i3,x),/,3(3(f12.7,x)/))' ) 'invFp_new at ' , g , i , e , invFp_new
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!$OMPEND CRITICAL (write2out)
endif
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return
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endif
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Fe_new = math_mul33x33 ( Fg_new , invFp_new ) ! calc resulting Fe
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! add volumetric component to 2nd Piola-Kirchhoff stress
forall ( n = 1 : 3 ) Tstar_v ( n ) = Tstar_v ( n ) + p_hydro
! calculate 1st Piola-Kirchhoff stress
crystallite_P ( : , : , g , i , e ) = math_mul33x33 ( Fe_new , math_mul33x33 ( math_Mandel6to33 ( Tstar_v ) , transpose ( invFp_new ) ) )
! store local values in global variables
crystallite_Lp ( : , : , g , i , e ) = Lpguess
crystallite_Tstar_v ( : , g , i , e ) = Tstar_v
crystallite_Fp ( : , : , g , i , e ) = Fp_new
crystallite_Fe ( : , : , g , i , e ) = Fe_new
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crystallite_invFp ( : , : , g , i , e ) = invFp_new
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! set return flag to true
crystallite_integrateStress = . true .
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if ( verboseDebugger . and . selectiveDebugger ) then
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!$OMP CRITICAL (write2out)
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write ( 6 , '(a,i3,x,i2,x,i5,x,a,x,i3)' ) '::: integrateStress converged at ' , g , i , e , ' ; iteration ' , NiterationStress
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write ( 6 , * )
write ( 6 , '(a,/,3(3(f12.7,x)/))' ) 'P / MPa' , crystallite_P ( : , : , g , i , e ) / 1e6
write ( 6 , '(a,/,3(3(f12.7,x)/))' ) 'Lp' , crystallite_Lp ( : , : , g , i , e )
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write ( 6 , '(a,/,3(3(f12.7,x)/))' ) 'Fp' , crystallite_Fp ( : , : , g , i , e )
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!$OMP END CRITICAL (write2out)
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endif
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!$OMP CRITICAL (distributionStress)
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debug_StressLoopDistribution ( NiterationStress ) = debug_StressLoopDistribution ( NiterationStress ) + 1
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!$OMPEND CRITICAL (distributionStress)
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return
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endfunction
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!********************************************************************
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! calculates orientations and disorientations (in case of single grain ips)
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!********************************************************************
subroutine crystallite_orientations ( )
!*** variables and functions from other modules ***!
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use prec , only : pInt , &
pReal
use math , only : math_pDecomposition , &
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math_RtoQuaternion , &
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math_QuaternionDisorientation , &
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inDeg
use FEsolving , only : FEsolving_execElem , &
FEsolving_execIP
use IO , only : IO_warning
use material , only : material_phase , &
homogenization_Ngrains , &
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phase_constitution
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use mesh , only : mesh_element , &
mesh_ipNeighborhood , &
FE_NipNeighbors
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use debug , only : debugger , &
debug_e , debug_i , debug_g , &
verboseDebugger , &
selectiveDebugger
use constitutive_nonlocal , only : constitutive_nonlocal_label
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implicit none
!*** input variables ***!
!*** output variables ***!
!*** local variables ***!
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integer ( pInt ) e , & ! element index
i , & ! integration point index
g , & ! grain index
n , & ! neighbor index
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myPhase , & ! phase
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neighboring_e , & ! element index of my neighbor
neighboring_i , & ! integration point index of my neighbor
neighboringPhase , & ! phase of my neighbor
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neighboringStructure ! lattice structure of my neighbor
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real ( pReal ) , dimension ( 3 , 3 ) :: U , R
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logical error
!$OMP PARALLEL DO
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do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
do g = 1 , homogenization_Ngrains ( mesh_element ( 3 , e ) )
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! calculate orientation in terms of rotation matrix and euler angles
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call math_pDecomposition ( crystallite_Fe ( : , : , g , i , e ) , U , R , error ) ! polar decomposition of Fe
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if ( error ) then
call IO_warning ( 650 , e , i , g )
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crystallite_orientation ( : , g , i , e ) = ( / 1.0_pReal , 0.0_pReal , 0.0_pReal , 0.0_pReal / ) ! fake orientation
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else
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crystallite_orientation ( : , g , i , e ) = math_RtoQuaternion ( R )
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endif
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crystallite_rotation ( : , g , i , e ) = &
math_QuaternionDisorientation ( crystallite_orientation ( : , g , i , e ) , & ! calculate grainrotation
crystallite_orientation0 ( : , g , i , e ) , &
crystallite_symmetryID ( g , i , e ) )
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enddo
enddo
enddo
!$OMPEND PARALLEL DO
!$OMP PARALLEL DO
! Another loop for nonlocal material which uses the orientations from the first one.
do e = FEsolving_execElem ( 1 ) , FEsolving_execElem ( 2 )
do i = FEsolving_execIP ( 1 , e ) , FEsolving_execIP ( 2 , e )
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selectiveDebugger = ( e == debug_e . and . i == debug_i )
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myPhase = material_phase ( 1 , i , e ) ! get my crystal structure
if ( phase_constitution ( myPhase ) == constitutive_nonlocal_label ) then ! if nonlocal model
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do n = 1 , FE_NipNeighbors ( mesh_element ( 2 , e ) ) ! loop through my neighbors
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neighboring_e = mesh_ipNeighborhood ( 1 , n , i , e )
neighboring_i = mesh_ipNeighborhood ( 2 , n , i , e )
if ( ( neighboring_e > 0 ) . and . ( neighboring_i > 0 ) ) then ! if neighbor exists
neighboringPhase = material_phase ( 1 , neighboring_i , neighboring_e ) ! get my neighbor's crystal structure
if ( myPhase == neighboringPhase ) then ! if my neighbor has same phase like me
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crystallite_disorientation ( : , n , 1 , i , e ) = &
math_QuaternionDisorientation ( crystallite_orientation ( : , 1 , i , e ) , &
crystallite_orientation ( : , 1 , neighboring_i , neighboring_e ) , &
crystallite_symmetryID ( 1 , i , e ) ) ! calculate disorientation
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else ! for neighbor with different phase
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crystallite_disorientation ( : , n , 1 , i , e ) = ( / 0.0_pReal , 1.0_pReal , 0.0_pReal , 0.0_pReal / ) ! 180 degree rotation about 100 axis
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endif
else ! no existing neighbor
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crystallite_disorientation ( : , n , 1 , i , e ) = ( / - 1.0_pReal , 0.0_pReal , 0.0_pReal , 0.0_pReal / ) ! homomorphic identity
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endif
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if ( verboseDebugger . and . selectiveDebugger ) then
!$OMP CRITICAL (write2out)
write ( 6 , '(a27,i2,a3,4(f12.5,x))' ) 'disorientation to neighbor ' , n , ' : ' , crystallite_disorientation ( : , n , 1 , i , e )
!$OMP END CRITICAL (write2out)
endif
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enddo
endif
enddo
enddo
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!$OMPEND PARALLEL DO
endsubroutine
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!********************************************************************
! return results of particular grain
!********************************************************************
function crystallite_postResults ( &
dt , & ! time increment
g , & ! grain number
i , & ! integration point number
e & ! element number
)
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!*** variables and functions from other modules ***!
use prec , only : pInt , &
pReal
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use math , only : math_QuaternionToEuler , &
math_QuaternionToAxisAngle
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use mesh , only : mesh_element
use material , only : microstructure_crystallite , &
crystallite_Noutput , &
material_phase , &
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material_volume
use constitutive , only : constitutive_sizePostResults , &
constitutive_postResults
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implicit none
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!*** input variables ***!
integer ( pInt ) , intent ( in ) :: e , & ! element index
i , & ! integration point index
g ! grain index
constitutive_nonlocal:
- read in activation energy for dislocation glide from material.config
- changed naming of dDipMin/Max to dLower/dUpper
- added new outputs: rho_dot, rho_dot_dip, rho_dot_gen, rho_dot_sgl2dip, rho_dot_dip2sgl, rho_dot_ann_ath, rho_dot_ann_the, rho_dot_flux, d_upper_edge, d_upper_screw, d_upper_dot_edge, d_upper_dot_screw
- poisson's ratio is now calculated from elastic constants
- microstrucutre has state as first argument, since this is our output variable
- periodic boundary conditions are taken into account for fluxes and internal stresses. for the moment, flag has to be set in constitutive_nonlocal.
- corrected calculation for dipole formation by glide
- added terms for dipole formation/annihilation by stress decrease/increase
constitutive:
- passing of arguments is adapted for constitutive_nonlocal model
crystallite:
- in stiffness calculation: call to collect_dotState used wrong arguments
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
homogenization:
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
IO:
- changed error message 229
material.config:
- changed example for nonlocal constitution according to constitutive_nonlocal
all:
- added some flush statements
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real ( pReal ) , intent ( in ) :: dt ! time increment
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!*** output variables ***!
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real ( pReal ) , dimension ( 1 + crystallite_sizePostResults ( microstructure_crystallite ( mesh_element ( 4 , e ) ) ) + &
1 + constitutive_sizePostResults ( g , i , e ) ) :: crystallite_postResults
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!*** local variables ***!
constitutive_nonlocal:
- read in activation energy for dislocation glide from material.config
- changed naming of dDipMin/Max to dLower/dUpper
- added new outputs: rho_dot, rho_dot_dip, rho_dot_gen, rho_dot_sgl2dip, rho_dot_dip2sgl, rho_dot_ann_ath, rho_dot_ann_the, rho_dot_flux, d_upper_edge, d_upper_screw, d_upper_dot_edge, d_upper_dot_screw
- poisson's ratio is now calculated from elastic constants
- microstrucutre has state as first argument, since this is our output variable
- periodic boundary conditions are taken into account for fluxes and internal stresses. for the moment, flag has to be set in constitutive_nonlocal.
- corrected calculation for dipole formation by glide
- added terms for dipole formation/annihilation by stress decrease/increase
constitutive:
- passing of arguments is adapted for constitutive_nonlocal model
crystallite:
- in stiffness calculation: call to collect_dotState used wrong arguments
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
homogenization:
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
IO:
- changed error message 229
material.config:
- changed example for nonlocal constitution according to constitutive_nonlocal
all:
- added some flush statements
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real ( pReal ) , dimension ( 3 , 3 ) :: U , R
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integer ( pInt ) k , l , o , c , crystID
logical error
crystID = microstructure_crystallite ( mesh_element ( 4 , e ) )
crystallite_postResults = 0.0_pReal
c = 0_pInt
crystallite_postResults ( c + 1 ) = crystallite_sizePostResults ( crystID ) ; c = c + 1_pInt ! size of results from cryst
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do o = 1 , crystallite_Noutput ( crystID )
select case ( crystallite_output ( o , crystID ) )
case ( 'phase' )
crystallite_postResults ( c + 1 ) = material_phase ( g , i , e ) ! phaseID of grain
c = c + 1_pInt
case ( 'volume' )
crystallite_postResults ( c + 1 ) = material_volume ( g , i , e ) ! grain volume (not fraction but absolute, right?)
c = c + 1_pInt
case ( 'orientation' )
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crystallite_postResults ( c + 1 : c + 4 ) = &
crystallite_orientation ( : , g , i , e ) ! grain orientation
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c = c + 4_pInt
case ( 'eulerangles' )
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crystallite_postResults ( c + 1 : c + 3 ) = &
math_QuaternionToEuler ( crystallite_orientation ( : , g , i , e ) ) ! grain orientation
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c = c + 3_pInt
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case ( 'grainrotation' )
crystallite_postResults ( c + 1 : c + 4 ) = &
math_QuaternionToAxisAngle ( crystallite_rotation ( : , g , i , e ) ) ! grain rotation away from initial orientation
c = c + 4_pInt
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case ( 'defgrad' )
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forall ( k = 0 : 2 , l = 0 : 2 ) crystallite_postResults ( c + 1 + k * 3 + l ) = &
crystallite_partionedF ( k + 1 , l + 1 , g , i , e )
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c = c + 9_pInt
end select
enddo
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crystallite_postResults ( c + 1 ) = constitutive_sizePostResults ( g , i , e ) ; c = c + 1_pInt ! size of constitutive results
crystallite_postResults ( c + 1 : c + constitutive_sizePostResults ( g , i , e ) ) = &
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constitutive_postResults ( crystallite_Tstar_v ( : , g , i , e ) , crystallite_subTstar0_v ( : , g , i , e ) , crystallite_Fe , crystallite_Fp , &
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crystallite_Temperature ( g , i , e ) , crystallite_disorientation ( : , : , g , i , e ) , dt , &
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crystallite_subdt ( g , i , e ) , g , i , e )
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c = c + constitutive_sizePostResults ( g , i , e )
constitutive_nonlocal:
- read in activation energy for dislocation glide from material.config
- changed naming of dDipMin/Max to dLower/dUpper
- added new outputs: rho_dot, rho_dot_dip, rho_dot_gen, rho_dot_sgl2dip, rho_dot_dip2sgl, rho_dot_ann_ath, rho_dot_ann_the, rho_dot_flux, d_upper_edge, d_upper_screw, d_upper_dot_edge, d_upper_dot_screw
- poisson's ratio is now calculated from elastic constants
- microstrucutre has state as first argument, since this is our output variable
- periodic boundary conditions are taken into account for fluxes and internal stresses. for the moment, flag has to be set in constitutive_nonlocal.
- corrected calculation for dipole formation by glide
- added terms for dipole formation/annihilation by stress decrease/increase
constitutive:
- passing of arguments is adapted for constitutive_nonlocal model
crystallite:
- in stiffness calculation: call to collect_dotState used wrong arguments
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
homogenization:
- crystallite_postResults uses own Tstar_v and temperature, no need for passing them from materialpoint_postResults
IO:
- changed error message 229
material.config:
- changed example for nonlocal constitution according to constitutive_nonlocal
all:
- added some flush statements
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return
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endfunction
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END MODULE
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!##############################################################