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DAMASK_EICMD
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Merge branch '3-adding-plastic-constitutive-law-with-kinematic-hardening' into development

This commit is contained in:
Martin Diehl 2018-05-04 16:07:46 +02:00
parent 726f90aff3 9072179c61
commit 991c917076
12 changed files with 1108 additions and 45 deletions
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2
PRIVATE

@ -1 +1 @@
Subproject commit 186d61315bb1329deb0a8d871c4ea1b1c3dee2a5
Subproject commit b7d1d309146e017caa5744333c2e4a4532a6fc20

0
lib/damask/util.py Executable file → Normal file
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1
src/CMakeLists.txt
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@ -74,6 +74,7 @@ add_library (PLASTIC OBJECT
"plastic_disloUCLA.f90"
"plastic_isotropic.f90"
"plastic_phenopowerlaw.f90"
"plastic_kinematichardening.f90"
"plastic_nonlocal.f90"
"plastic_none.f90")
add_dependencies(PLASTIC DAMASK_HELPERS)

3
src/CPFEM.f90
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@ -162,6 +162,7 @@ subroutine CPFEM_init
write(6,'(/,a)') ' <<<+- CPFEM init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90"
flush(6)
endif mainProcess
! initialize stress and jacobian to zero
@ -242,8 +243,8 @@ subroutine CPFEM_init
write(6,'(a32,1x,6(i8,1x))') 'CPFEM_dcsdE: ', shape(CPFEM_dcsdE)
write(6,'(a32,1x,6(i8,1x),/)') 'CPFEM_dcsdE_knownGood: ', shape(CPFEM_dcsdE_knownGood)
write(6,'(a32,l1)') 'symmetricSolver: ', symmetricSolver
flush(6)
endif
flush(6)
end subroutine CPFEM_init

1
src/commercialFEM_fileList.f90
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@ -28,6 +28,7 @@
#include "plastic_none.f90"
#include "plastic_isotropic.f90"
#include "plastic_phenopowerlaw.f90"
#include "plastic_kinematichardening.f90"
#include "plastic_dislotwin.f90"
#include "plastic_disloUCLA.f90"
#include "plastic_nonlocal.f90"

57
src/constitutive.f90
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@ -74,6 +74,7 @@ subroutine constitutive_init()
PLASTICITY_none_ID, &
PLASTICITY_isotropic_ID, &
PLASTICITY_phenopowerlaw_ID, &
PLASTICITY_kinehardening_ID, &
PLASTICITY_dislotwin_ID, &
PLASTICITY_disloucla_ID, &
PLASTICITY_nonlocal_ID ,&
@ -95,6 +96,7 @@ subroutine constitutive_init()
PLASTICITY_NONE_label, &
PLASTICITY_ISOTROPIC_label, &
PLASTICITY_PHENOPOWERLAW_label, &
PLASTICITY_KINEHARDENING_label, &
PLASTICITY_DISLOTWIN_label, &
PLASTICITY_DISLOUCLA_label, &
PLASTICITY_NONLOCAL_label, &
@ -113,6 +115,7 @@ subroutine constitutive_init()
use plastic_none
use plastic_isotropic
use plastic_phenopowerlaw
use plastic_kinehardening
use plastic_dislotwin
use plastic_disloucla
use plastic_nonlocal
@ -156,6 +159,7 @@ subroutine constitutive_init()
if (any(phase_plasticity == PLASTICITY_NONE_ID)) call plastic_none_init
if (any(phase_plasticity == PLASTICITY_ISOTROPIC_ID)) call plastic_isotropic_init(FILEUNIT)
if (any(phase_plasticity == PLASTICITY_PHENOPOWERLAW_ID)) call plastic_phenopowerlaw_init(FILEUNIT)
if (any(phase_plasticity == PLASTICITY_KINEHARDENING_ID)) call plastic_kinehardening_init(FILEUNIT)
if (any(phase_plasticity == PLASTICITY_DISLOTWIN_ID)) call plastic_dislotwin_init(FILEUNIT)
if (any(phase_plasticity == PLASTICITY_DISLOUCLA_ID)) call plastic_disloucla_init(FILEUNIT)
if (any(phase_plasticity == PLASTICITY_NONLOCAL_ID)) then
@ -214,6 +218,11 @@ subroutine constitutive_init()
thisNoutput => plastic_phenopowerlaw_Noutput
thisOutput => plastic_phenopowerlaw_output
thisSize => plastic_phenopowerlaw_sizePostResult
case (PLASTICITY_KINEHARDENING_ID) plasticityType
outputName = PLASTICITY_KINEHARDENING_label
thisNoutput => plastic_kinehardening_Noutput
thisOutput => plastic_kinehardening_output
thisSize => plastic_kinehardening_sizePostResult
case (PLASTICITY_DISLOTWIN_ID) plasticityType
outputName = PLASTICITY_DISLOTWIN_label
thisNoutput => plastic_dislotwin_Noutput
@ -472,6 +481,7 @@ subroutine constitutive_LpAndItsTangent(Lp, dLp_dTstar3333, dLp_dFi3333, Tstar_v
PLASTICITY_NONE_ID, &
PLASTICITY_ISOTROPIC_ID, &
PLASTICITY_PHENOPOWERLAW_ID, &
PLASTICITY_KINEHARDENING_ID, &
PLASTICITY_DISLOTWIN_ID, &
PLASTICITY_DISLOUCLA_ID, &
PLASTICITY_NONLOCAL_ID
@ -479,6 +489,8 @@ subroutine constitutive_LpAndItsTangent(Lp, dLp_dTstar3333, dLp_dFi3333, Tstar_v
plastic_isotropic_LpAndItsTangent
use plastic_phenopowerlaw, only: &
plastic_phenopowerlaw_LpAndItsTangent
use plastic_kinehardening, only: &
plastic_kinehardening_LpAndItsTangent
use plastic_dislotwin, only: &
plastic_dislotwin_LpAndItsTangent
use plastic_disloucla, only: &
@ -522,18 +534,20 @@ subroutine constitutive_LpAndItsTangent(Lp, dLp_dTstar3333, dLp_dFi3333, Tstar_v
Lp = 0.0_pReal
dLp_dMstar = 0.0_pReal
case (PLASTICITY_ISOTROPIC_ID) plasticityType
call plastic_isotropic_LpAndItsTangent(Lp,dLp_dMstar,Mstar_v,ipc,ip,el)
call plastic_isotropic_LpAndItsTangent (Lp,dLp_dMstar,Mstar_v,ipc,ip,el)
case (PLASTICITY_PHENOPOWERLAW_ID) plasticityType
call plastic_phenopowerlaw_LpAndItsTangent(Lp,dLp_dMstar,Mstar_v,ipc,ip,el)
call plastic_phenopowerlaw_LpAndItsTangent (Lp,dLp_dMstar,Mstar_v,ipc,ip,el)
case (PLASTICITY_KINEHARDENING_ID) plasticityType
call plastic_kinehardening_LpAndItsTangent (Lp,dLp_dMstar,Mstar_v,ipc,ip,el)
case (PLASTICITY_NONLOCAL_ID) plasticityType
call plastic_nonlocal_LpAndItsTangent(Lp,dLp_dMstar,Mstar_v, &
temperature(ho)%p(tme),ip,el)
call plastic_nonlocal_LpAndItsTangent (Lp,dLp_dMstar,Mstar_v, &
temperature(ho)%p(tme),ip,el)
case (PLASTICITY_DISLOTWIN_ID) plasticityType
call plastic_dislotwin_LpAndItsTangent(Lp,dLp_dMstar,Mstar_v, &
temperature(ho)%p(tme),ipc,ip,el)
call plastic_dislotwin_LpAndItsTangent (Lp,dLp_dMstar,Mstar_v, &
temperature(ho)%p(tme),ipc,ip,el)
case (PLASTICITY_DISLOUCLA_ID) plasticityType
call plastic_disloucla_LpAndItsTangent(Lp,dLp_dMstar,Mstar_v, &
temperature(ho)%p(tme), ipc,ip,el)
call plastic_disloucla_LpAndItsTangent (Lp,dLp_dMstar,Mstar_v, &
temperature(ho)%p(tme), ipc,ip,el)
end select plasticityType
dLp_dTstar3333 = math_Plain99to3333(dLp_dMstar)
@ -717,7 +731,7 @@ end function constitutive_initialFi
!--------------------------------------------------------------------------------------------------
!> @brief returns the 2nd Piola-Kirchhoff stress tensor and its tangent with respect to
!> the elastic deformation gradient depending on the selected elastic law (so far no case switch
!! because only hooke is implemented
!! because only Hooke is implemented
!--------------------------------------------------------------------------------------------------
subroutine constitutive_TandItsTangent(T, dT_dFe, dT_dFi, Fe, Fi, ipc, ip, el)
use prec, only: &
@ -844,6 +858,7 @@ subroutine constitutive_collectDotState(Tstar_v, FeArray, FpArray, subdt, subfra
PLASTICITY_none_ID, &
PLASTICITY_isotropic_ID, &
PLASTICITY_phenopowerlaw_ID, &
PLASTICITY_kinehardening_ID, &
PLASTICITY_dislotwin_ID, &
PLASTICITY_disloucla_ID, &
PLASTICITY_nonlocal_ID, &
@ -855,6 +870,8 @@ subroutine constitutive_collectDotState(Tstar_v, FeArray, FpArray, subdt, subfra
plastic_isotropic_dotState
use plastic_phenopowerlaw, only: &
plastic_phenopowerlaw_dotState
use plastic_kinehardening, only: &
plastic_kinehardening_dotState
use plastic_dislotwin, only: &
plastic_dislotwin_dotState
use plastic_disloucla, only: &
@ -905,6 +922,8 @@ subroutine constitutive_collectDotState(Tstar_v, FeArray, FpArray, subdt, subfra
call plastic_isotropic_dotState (Tstar_v,ipc,ip,el)
case (PLASTICITY_PHENOPOWERLAW_ID) plasticityType
call plastic_phenopowerlaw_dotState(Tstar_v,ipc,ip,el)
case (PLASTICITY_KINEHARDENING_ID) plasticityType
call plastic_kinehardening_dotState(Tstar_v,ipc,ip,el)
case (PLASTICITY_DISLOTWIN_ID) plasticityType
call plastic_dislotwin_dotState (Tstar_v,temperature(ho)%p(tme), &
ipc,ip,el)
@ -959,10 +978,13 @@ subroutine constitutive_collectDeltaState(Tstar_v, Fe, ipc, ip, el)
phase_source, &
phase_Nsources, &
material_phase, &
PLASTICITY_KINEHARDENING_ID, &
PLASTICITY_NONLOCAL_ID, &
SOURCE_damage_isoBrittle_ID, &
SOURCE_vacancy_irradiation_ID, &
SOURCE_vacancy_thermalfluc_ID
use plastic_kinehardening, only: &
plastic_kinehardening_deltaState
use plastic_nonlocal, only: &
plastic_nonlocal_deltaState
use source_damage_isoBrittle, only: &
@ -991,15 +1013,18 @@ subroutine constitutive_collectDeltaState(Tstar_v, Fe, ipc, ip, el)
if (iand(debug_level(debug_constitutive), debug_levelBasic) /= 0_pInt) &
call system_clock(count=tick,count_rate=tickrate,count_max=maxticks)
if(phase_plasticity(material_phase(ipc,ip,el)) == PLASTICITY_NONLOCAL_ID) &
call plastic_nonlocal_deltaState(Tstar_v,ip,el)
plasticityType: select case (phase_plasticity(material_phase(ipc,ip,el)))
case (PLASTICITY_KINEHARDENING_ID) plasticityType
call plastic_kinehardening_deltaState(Tstar_v,ipc,ip,el)
case (PLASTICITY_NONLOCAL_ID) plasticityType
call plastic_nonlocal_deltaState(Tstar_v,ip,el)
end select plasticityType
SourceLoop: do s = 1_pInt, phase_Nsources(material_phase(ipc,ip,el))
sourceType: select case (phase_source(s,material_phase(ipc,ip,el)))
case (SOURCE_damage_isoBrittle_ID) sourceType
call source_damage_isoBrittle_deltaState (constitutive_homogenizedC(ipc,ip,el), Fe, &
ipc, ip, el)
ipc, ip, el)
case (SOURCE_vacancy_irradiation_ID) sourceType
call source_vacancy_irradiation_deltaState(ipc, ip, el)
case (SOURCE_vacancy_thermalfluc_ID) sourceType
@ -1043,6 +1068,7 @@ function constitutive_postResults(Tstar_v, FeArray, ipc, ip, el)
PLASTICITY_NONE_ID, &
PLASTICITY_ISOTROPIC_ID, &
PLASTICITY_PHENOPOWERLAW_ID, &
PLASTICITY_KINEHARDENING_ID, &
PLASTICITY_DISLOTWIN_ID, &
PLASTICITY_DISLOUCLA_ID, &
PLASTICITY_NONLOCAL_ID, &
@ -1054,6 +1080,8 @@ function constitutive_postResults(Tstar_v, FeArray, ipc, ip, el)
plastic_isotropic_postResults
use plastic_phenopowerlaw, only: &
plastic_phenopowerlaw_postResults
use plastic_kinehardening, only: &
plastic_kinehardening_postResults
use plastic_dislotwin, only: &
plastic_dislotwin_postResults
use plastic_disloucla, only: &
@ -1102,6 +1130,9 @@ function constitutive_postResults(Tstar_v, FeArray, ipc, ip, el)
case (PLASTICITY_PHENOPOWERLAW_ID) plasticityType
constitutive_postResults(startPos:endPos) = &
plastic_phenopowerlaw_postResults(Tstar_v,ipc,ip,el)
case (PLASTICITY_KINEHARDENING_ID) plasticityType
constitutive_postResults(startPos:endPos) = &
plastic_kinehardening_postResults(Tstar_v,ipc,ip,el)
case (PLASTICITY_DISLOTWIN_ID) plasticityType
constitutive_postResults(startPos:endPos) = &
plastic_dislotwin_postResults(Tstar_v,temperature(ho)%p(tme),ipc,ip,el)

98
src/crystallite.f90
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@ -986,7 +986,9 @@ subroutine crystallite_stressAndItsTangent(updateJaco)
crystallite_todo(c,i,e) = crystallite_subStep(c,i,e) > subStepMinCryst ! still on track or already done (beyond repair)
!$OMP FLUSH(crystallite_todo)
#ifdef DEBUG
if (iand(debug_level(debug_crystallite),debug_levelBasic) /= 0_pInt) then
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt &
.and. ((e == debug_e .and. i == debug_i .and. c == debug_g) &
.or. .not. iand(debug_level(debug_crystallite),debug_levelSelective) /= 0_pInt)) then
if (crystallite_todo(c,i,e)) then
write(6,'(a,f12.8,a,i8,1x,i2,1x,i3,/)') '<< CRYST >> cutback step in crystallite_stressAndItsTangent &
&with new crystallite_subStep: ',&
@ -1042,16 +1044,25 @@ subroutine crystallite_stressAndItsTangent(updateJaco)
endif timeSyncing2
if (iand(debug_level(debug_crystallite),debug_levelExtensive) /= 0_pInt) then
write(6,'(/,a,e12.5)') '<< CRYST >> min(subStep) ',minval(crystallite_subStep)
write(6,'(a,e12.5)') '<< CRYST >> max(subStep) ',maxval(crystallite_subStep)
write(6,'(a,e12.5)') '<< CRYST >> min(subFrac) ',minval(crystallite_subFrac)
write(6,'(a,e12.5,/)') '<< CRYST >> max(subFrac) ',maxval(crystallite_subFrac)
write(6,'(/,a,f8.5)') '<< CRYST >> min(subStep) ',minval(crystallite_subStep)
write(6,'(a,f8.5)') '<< CRYST >> max(subStep) ',maxval(crystallite_subStep)
write(6,'(a,f8.5)') '<< CRYST >> min(subFrac) ',minval(crystallite_subFrac)
write(6,'(a,f8.5,/)') '<< CRYST >> max(subFrac) ',maxval(crystallite_subFrac)
flush(6)
if (iand(debug_level(debug_crystallite),debug_levelSelective) /= 0_pInt) then
write(6,'(/,a,f8.5,1x,a,1x,f8.5,1x,a)') '<< CRYST >> subFrac + subStep = ',&
crystallite_subFrac(debug_g,debug_i,debug_e),'+',crystallite_subStep(debug_g,debug_i,debug_e),'@selective'
flush(6)
endif
endif
! --- integrate --- requires fully defined state array (basic + dependent state)
if (any(crystallite_todo)) then
if (iand(debug_level(debug_crystallite),debug_levelExtensive) /= 0_pInt) then
write(6,'(/,a,i3)') '<< CRYST >> using state integrator ',numerics_integrator(numerics_integrationMode)
flush(6)
endif
select case(numerics_integrator(numerics_integrationMode))
case(1_pInt)
call crystallite_integrateStateFPI()
@ -2702,6 +2713,9 @@ subroutine crystallite_integrateStateFPI()
singleRun = (eIter(1) == eIter(2) .and. iIter(1,eIter(1)) == iIter(2,eIter(2)))
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt) &
write(6,'(a,i8,a)') '<< CRYST >> ', count(crystallite_todo(:,:,:)),' grains todo at start of state integration'
!--------------------------------------------------------------------------------------------------
! initialize dotState
if (.not. singleRun) then
@ -2754,6 +2768,8 @@ subroutine crystallite_integrateStateFPI()
NaN = NaN .or. any(IEEE_is_NaN(sourceState(p)%p(mySource)%dotState(:,c)))
enddo
if (NaN) then ! NaN occured in any dotState
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt) &
write(6,*) '<< CRYST >> dotstate ',plasticState(p)%dotState(:,c)
if (.not. crystallite_localPlasticity(g,i,e)) then ! if broken is a non-local...
!$OMP CRITICAL (checkTodo)
crystallite_todo = crystallite_todo .and. crystallite_localPlasticity ! ...all non-locals done (and broken)
@ -2767,6 +2783,9 @@ subroutine crystallite_integrateStateFPI()
!$OMP ENDDO
! --- UPDATE STATE ---
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt) &
write(6,'(a,i8,a)') '<< CRYST >> ', count(crystallite_todo(:,:,:)),' grains todo after preguess of state'
!$OMP DO PRIVATE(mySizePlasticDotState,mySizeSourceDotState,p,c)
do e = eIter(1),eIter(2); do i = iIter(1,e),iIter(2,e); do g = gIter(1,e),gIter(2,e) ! iterate over elements, ips and grains
@ -2822,6 +2841,9 @@ subroutine crystallite_integrateStateFPI()
! --- STRESS INTEGRATION ---
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt) &
write(6,'(a,i8,a)') '<< CRYST >> ', count(crystallite_todo(:,:,:)),' grains todo before stress integration'
!$OMP DO
do e = eIter(1),eIter(2); do i = iIter(1,e),iIter(2,e); do g = gIter(1,e),gIter(2,e) ! iterate over elements, ips and grains
!$OMP FLUSH(crystallite_todo)
@ -2976,7 +2998,11 @@ subroutine crystallite_integrateStateFPI()
.or. .not. iand(debug_level(debug_crystallite), debug_levelSelective) /= 0_pInt)) then
write(6,'(a,i8,1x,i2,1x,i3,/)') '<< CRYST >> update state at el ip g ',e,i,g
write(6,'(a,f6.1,/)') '<< CRYST >> plasticstatedamper ',plasticStatedamper
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> plastic state residuum',plasticStateResiduum(1:mySizePlasticDotState)
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> plastic state residuum',&
abs(plasticStateResiduum(1:mySizePlasticDotState))
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> abstol dotstate',plasticState(p)%aTolState(1:mySizePlasticDotState)
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> reltol dotstate',rTol_crystalliteState* &
abs(tempPlasticState(1:mySizePlasticDotState))
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> new state',tempPlasticState(1:mySizePlasticDotState)
endif
#endif
@ -3036,8 +3062,8 @@ subroutine crystallite_integrateStateFPI()
!$OMP END PARALLEL
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt) &
write(6,'(a,i8,a,i2,/)') '<< CRYST >> ', count(crystallite_converged(:,:,:)), &
' grains converged after state integration #', NiterationState
write(6,'(a,i8,a,i2)') '<< CRYST >> ', count(crystallite_converged(:,:,:)), &
' grains converged after state integration #', NiterationState
! --- NON-LOCAL CONVERGENCE CHECK ---
@ -3152,8 +3178,8 @@ logical function crystallite_stateJump(ipc,ip,el)
write(6,'(a,i8,1x,i2,1x,i3, /)') '<< CRYST >> update state at el ip ipc ',el,ip,ipc
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> deltaState', plasticState(p)%deltaState(1:mySizePlasticDeltaState,c)
write(6,'(a,/,(12x,12(e12.5,1x)),/)') '<< CRYST >> new state', &
plasticState(p)%state(myOffsetSourceDeltaState + 1_pInt : &
myOffsetSourceDeltaState + mySizeSourceDeltaState,c)
plasticState(p)%state(myOffsetPlasticDeltaState + 1_pInt : &
myOffsetPlasticDeltaState + mySizePlasticDeltaState,c)
endif
#endif
@ -3195,9 +3221,9 @@ end function crystallite_push33ToRef
!> intermediate acceleration of the Newton-Raphson correction
!--------------------------------------------------------------------------------------------------
logical function crystallite_integrateStress(&
ipc,& ! grain number
ip,& ! integration point number
el,& ! element number
ipc,& ! grain number
ip,& ! integration point number
el,& ! element number
timeFraction &
)
use, intrinsic :: &
@ -3252,10 +3278,10 @@ logical function crystallite_integrateStress(&
#endif
implicit none
integer(pInt), intent(in):: el, & ! element index
ip, & ! integration point index
ipc ! grain index
real(pReal), optional, intent(in) :: timeFraction ! fraction of timestep
integer(pInt), intent(in):: el, & ! element index
ip, & ! integration point index
ipc ! grain index
real(pReal), optional, intent(in) :: timeFraction ! fraction of timestep
!*** local variables ***!
real(pReal), dimension(3,3):: Fg_new, & ! deformation gradient at end of timestep
@ -3330,7 +3356,6 @@ logical function crystallite_integrateStress(&
write(6,'(a,i8,1x,i2,1x,i3)') '<< CRYST >> integrateStress at el ip ipc ',el,ip,ipc
#endif
!* only integrate over fraction of timestep?
if (present(timeFraction)) then
@ -3417,7 +3442,7 @@ logical function crystallite_integrateStress(&
#ifdef DEBUG
if (iand(debug_level(debug_crystallite), debug_levelBasic) /= 0_pInt) &
write(6,'(a,i3,a,i8,1x,a,i8,a,1x,i2,1x,i3,/)') '<< CRYST >> integrateStress reached loop limit',nStress, &
' at el (elFE) ip ipc ', el,mesh_element(1,el),ip,ipc
' at el (elFE) ip ipc ', el,'(',mesh_element(1,el),')',ip,ipc
#endif
return
endif loopsExeced
@ -3426,7 +3451,8 @@ logical function crystallite_integrateStress(&
B = math_I3 - dt*Lpguess
Fe = math_mul33x33(math_mul33x33(A,B), invFi_new) ! current elastic deformation tensor
call constitutive_TandItsTangent(Tstar, dT_dFe3333, dT_dFi3333, Fe, Fi_new, ipc, ip, el) ! call constitutive law to calculate 2nd Piola-Kirchhoff stress and its derivative in unloaded configuration
call constitutive_TandItsTangent(Tstar, dT_dFe3333, dT_dFi3333, &
Fe, Fi_new, ipc, ip, el) ! call constitutive law to calculate 2nd Piola-Kirchhoff stress and its derivative in unloaded configuration
Tstar_v = math_Mandel33to6(Tstar)
!* calculate plastic velocity gradient and its tangent from constitutive law
@ -3434,6 +3460,17 @@ logical function crystallite_integrateStress(&
if (iand(debug_level(debug_crystallite), debug_levelBasic) /= 0_pInt) &
call system_clock(count=tick,count_rate=tickrate,count_max=maxticks)
#ifdef DEBUG
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt &
.and. ((el == debug_e .and. ip == debug_i .and. ipc == debug_g) &
.or. .not. iand(debug_level(debug_crystallite), debug_levelSelective) /= 0_pInt)) then
write(6,'(a,i3,/)') '<< CRYST >> stress iteration ', NiterationStressLp
write(6,'(a,/,3(12x,3(e20.10,1x)/))') '<< CRYST >> Lpguess', math_transpose33(Lpguess)
write(6,'(a,/,3(12x,3(e20.10,1x)/))') '<< CRYST >> Fi', math_transpose33(Fi_new)
write(6,'(a,/,3(12x,3(e20.10,1x)/))') '<< CRYST >> Fe', math_transpose33(Fe)
write(6,'(a,/,6(e20.10,1x))') '<< CRYST >> Tstar', Tstar_v
endif
#endif
call constitutive_LpAndItsTangent(Lp_constitutive, dLp_dT3333, dLp_dFi3333, &
Tstar_v, Fi_new, ipc, ip, el)
@ -3451,9 +3488,7 @@ logical function crystallite_integrateStress(&
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt &
.and. ((el == debug_e .and. ip == debug_i .and. ipc == debug_g) &
.or. .not. iand(debug_level(debug_crystallite), debug_levelSelective) /= 0_pInt)) then
write(6,'(a,i3,/)') '<< CRYST >> stress iteration ', NiterationStressLp
write(6,'(a,/,3(12x,3(e20.7,1x)/))') '<< CRYST >> Lp_constitutive', math_transpose33(Lp_constitutive)
write(6,'(a,/,3(12x,3(e20.7,1x)/))') '<< CRYST >> Lpguess', math_transpose33(Lpguess)
write(6,'(a,/,3(12x,3(e20.10,1x)/))') '<< CRYST >> Lp_constitutive', math_transpose33(Lp_constitutive)
endif
#endif
@ -3483,6 +3518,13 @@ logical function crystallite_integrateStress(&
else ! not converged and residuum not improved...
steplengthLp = subStepSizeLp * steplengthLp ! ...try with smaller step length in same direction
Lpguess = Lpguess_old + steplengthLp * deltaLp
#ifdef DEBUG
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt &
.and. ((el == debug_e .and. ip == debug_i .and. ipc == debug_g) &
.or. .not. iand(debug_level(debug_crystallite), debug_levelSelective) /= 0_pInt)) then
write(6,'(a,1x,f7.4)') '<< CRYST >> linear search for Lpguess with step', steplengthLp
endif
#endif
cycle LpLoop
endif
@ -3496,6 +3538,16 @@ logical function crystallite_integrateStress(&
dFe_dLp3333 = - dt * dFe_dLp3333
dRLp_dLp = math_identity2nd(9_pInt) &
- math_Plain3333to99(math_mul3333xx3333(math_mul3333xx3333(dLp_dT3333,dT_dFe3333),dFe_dLp3333))
#ifdef DEBUG
if (iand(debug_level(debug_crystallite), debug_levelExtensive) /= 0_pInt &
.and. ((el == debug_e .and. ip == debug_i .and. ipc == debug_g) &
.or. .not. iand(debug_level(debug_crystallite), debug_levelSelective) /= 0_pInt)) then
write(6,'(a,/,9(12x,9(e12.4,1x)/))') '<< CRYST >> dLp_dT', math_Plain3333to99(dLp_dT3333)
write(6,'(a,1x,e20.10)') '<< CRYST >> dLp_dT norm', norm2(math_Plain3333to99(dLp_dT3333))
write(6,'(a,/,9(12x,9(e12.4,1x)/))') '<< CRYST >> dRLp_dLp', dRLp_dLp - math_identity2nd(9_pInt)
write(6,'(a,1x,e20.10)') '<< CRYST >> dRLp_dLp norm', norm2(dRLp_dLp - math_identity2nd(9_pInt))
endif
#endif
dRLp_dLp2 = dRLp_dLp ! will be overwritten in first call to LAPACK routine
work = math_plain33to9(residuumLp)
call dgesv(9,1,dRLp_dLp2,9,ipiv,work,9,ierr) ! solve dRLp/dLp * delta Lp = -res for delta Lp

14
src/debug.f90
View File

@ -443,13 +443,15 @@ subroutine debug_info
write(6,'(a15,i10,1x,i10)') ' total',integral,sum(debug_MaterialpointLoopDistribution)
endif debugOutputHomog
debugOutputCPFEM: if (iand(debug_level(debug_CPFEM),debug_LEVELBASIC) /= 0) then
write(6,'(2/,a,/)') ' Extreme values of returned stress and jacobian'
debugOutputCPFEM: if (iand(debug_level(debug_CPFEM),debug_LEVELBASIC) /= 0 &
.and. any(debug_stressMinLocation /= 0_pInt) &
.and. any(debug_stressMaxLocation /= 0_pInt) ) then
write(6,'(2/,a,/)') ' Extreme values of returned stress and Jacobian'
write(6,'(a39)') ' value el ip'
write(6,'(a14,1x,e12.3,1x,i6,1x,i4)') ' stress min :', debug_stressMin, debug_stressMinLocation
write(6,'(a14,1x,e12.3,1x,i6,1x,i4)') ' max :', debug_stressMax, debug_stressMaxLocation
write(6,'(a14,1x,e12.3,1x,i6,1x,i4)') ' jacobian min :', debug_jacobianMin, debug_jacobianMinLocation
write(6,'(a14,1x,e12.3,1x,i6,1x,i4,/)') ' max :', debug_jacobianMax, debug_jacobianMaxLocation
write(6,'(a14,1x,e12.3,1x,i8,1x,i4)') ' stress min :', debug_stressMin, debug_stressMinLocation
write(6,'(a14,1x,e12.3,1x,i8,1x,i4)') ' max :', debug_stressMax, debug_stressMaxLocation
write(6,'(a14,1x,e12.3,1x,i8,1x,i4)') ' Jacobian min :', debug_jacobianMin, debug_jacobianMinLocation
write(6,'(a14,1x,e12.3,1x,i8,1x,i4,/)') ' max :', debug_jacobianMax, debug_jacobianMaxLocation
endif debugOutputCPFEM
!$OMP END CRITICAL (write2out)

5
src/material.f90
View File

@ -25,6 +25,7 @@ module material
PLASTICITY_none_label = 'none', &
PLASTICITY_isotropic_label = 'isotropic', &
PLASTICITY_phenopowerlaw_label = 'phenopowerlaw', &
PLASTICITY_kinehardening_label = 'kinehardening', &
PLASTICITY_dislotwin_label = 'dislotwin', &
PLASTICITY_disloucla_label = 'disloucla', &
PLASTICITY_nonlocal_label = 'nonlocal', &
@ -72,6 +73,7 @@ module material
PLASTICITY_none_ID, &
PLASTICITY_isotropic_ID, &
PLASTICITY_phenopowerlaw_ID, &
PLASTICITY_kinehardening_ID, &
PLASTICITY_dislotwin_ID, &
PLASTICITY_disloucla_ID, &
PLASTICITY_nonlocal_ID
@ -308,6 +310,7 @@ module material
PLASTICITY_none_ID, &
PLASTICITY_isotropic_ID, &
PLASTICITY_phenopowerlaw_ID, &
PLASTICITY_kinehardening_ID, &
PLASTICITY_dislotwin_ID, &
PLASTICITY_disloucla_ID, &
PLASTICITY_nonlocal_ID, &
@ -983,6 +986,8 @@ subroutine material_parsePhase(fileUnit,myPart)
phase_plasticity(section) = PLASTICITY_ISOTROPIC_ID
case (PLASTICITY_PHENOPOWERLAW_label)
phase_plasticity(section) = PLASTICITY_PHENOPOWERLAW_ID
case (PLASTICITY_KINEHARDENING_label)
phase_plasticity(section) = PLASTICITY_KINEHARDENING_ID
case (PLASTICITY_DISLOTWIN_label)
phase_plasticity(section) = PLASTICITY_DISLOTWIN_ID
case (PLASTICITY_DISLOUCLA_label)

1
src/math.f90
View File

@ -74,6 +74,7 @@ module math
public :: &
math_init, &
math_qsort, &
math_expand, &
math_range, &
math_identity2nd, &
math_identity4th, &

2
src/plastic_isotropic.f90
View File

@ -62,7 +62,7 @@ module plastic_isotropic
end type
type, private :: tIsotropicAbsTol !< internal alias for abs tolerance in state
real(pReal), pointer :: & ! scalars along NipcMyInstance
real(pReal), pointer :: & ! scalars
flowstress, &
accumulatedShear
end type

969
src/plastic_kinematichardening.f90 Normal file
View File

@ -0,0 +1,969 @@
!--------------------------------------------------------------------------------------------------
!> @author Philip Eisenlohr, Michigan State University
!> @author Zhuowen Zhao, Michigan State University
!> @brief Introducing Voce-type kinematic hardening rule into crystal plasticity
!! formulation using a power law fitting
!--------------------------------------------------------------------------------------------------
module plastic_kinehardening
use prec, only: &
pReal,&
pInt
implicit none
private
integer(pInt), dimension(:), allocatable, public, protected :: &
plastic_kinehardening_sizePostResults !< cumulative size of post results
integer(pInt), dimension(:,:), allocatable, target, public :: &
plastic_kinehardening_sizePostResult !< size of each post result output
character(len=64), dimension(:,:), allocatable, target, public :: &
plastic_kinehardening_output !< name of each post result output
integer(pInt), dimension(:), allocatable, target, public :: &
plastic_kinehardening_Noutput !< number of outputs per instance
integer(pInt), dimension(:), allocatable, public, protected :: &
plastic_kinehardening_totalNslip !< no. of slip system used in simulation
integer(pInt), dimension(:,:), allocatable, private :: &
plastic_kinehardening_Nslip !< active number of slip systems per family (input parameter, per family)
enum, bind(c)
enumerator :: undefined_ID, &
crss_ID, & !< critical resolved stress
crss_back_ID, & !< critical resolved back stress
sense_ID, & !< sense of acting shear stress (-1 or +1)
chi0_ID, & !< backstress at last switch of stress sense (positive?)
gamma0_ID, & !< accumulated shear at last switch of stress sense (at current switch?)
accshear_ID, &
sumGamma_ID, &
shearrate_ID, &
resolvedstress_ID
end enum
type, private :: tParameters !< container type for internal constitutive parameters
integer(kind(undefined_ID)), dimension(:), allocatable, private :: &
outputID !< ID of each post result output
real(pReal) :: &
gdot0, & !< reference shear strain rate for slip (input parameter)
n_slip, & !< stress exponent for slip (input parameter)
aTolResistance, &
aTolShear
real(pReal), dimension(:), allocatable, private :: &
crss0, & !< initial critical shear stress for slip (input parameter, per family)
theta0, & !< initial hardening rate of forward stress for each slip
theta1, & !< asymptotic hardening rate of forward stress for each slip >
theta0_b, & !< initial hardening rate of back stress for each slip >
theta1_b, & !< asymptotic hardening rate of back stress for each slip >
tau1, &
tau1_b, &
interaction_slipslip, & !< latent hardening matrix
nonSchmidCoeff
real(pReal), dimension(:,:), allocatable, private :: &
hardeningMatrix_SlipSlip
end type
type, private :: tKinehardeningState
real(pReal), pointer, dimension(:,:) :: & !< vectors along NipcMyInstance
crss, & !< critical resolved stress
crss_back, & !< critical resolved back stress
sense, & !< sense of acting shear stress (-1 or +1)
chi0, & !< backstress at last switch of stress sense
gamma0, & !< accumulated shear at last switch of stress sense
accshear !< accumulated (absolute) shear
real(pReal), pointer, dimension(:) :: & !< scalars along NipcMyInstance
sumGamma !< accumulated shear across all systems
end type
type(tParameters), dimension(:), allocatable, private :: &
param !< containers of constitutive parameters (len Ninstance)
type(tKinehardeningState), allocatable, dimension(:), private :: &
dotState, &
deltaState, &
state, &
state0
public :: &
plastic_kinehardening_init, &
plastic_kinehardening_LpAndItsTangent, &
plastic_kinehardening_dotState, &
plastic_kinehardening_deltaState, &
plastic_kinehardening_postResults
private :: &
plastic_kinehardening_shearRates
contains
!--------------------------------------------------------------------------------------------------
!> @brief module initialization
!> @details reads in material parameters, allocates arrays, and does sanity checks
!--------------------------------------------------------------------------------------------------
subroutine plastic_kinehardening_init(fileUnit)
use, intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran 4.6 at the moment)
use prec, only: &
dEq0
use debug, only: &
debug_level, &
debug_constitutive,&
debug_levelBasic
use math, only: &
math_Mandel3333to66, &
math_Voigt66to3333, &
math_expand
use IO, only: &
IO_read, &
IO_lc, &
IO_getTag, &
IO_isBlank, &
IO_stringPos, &
IO_stringValue, &
IO_floatValue, &
IO_intValue, &
IO_warning, &
IO_error, &
IO_timeStamp, &
IO_EOF
use material, only: &
PLASTICITY_kinehardening_label, &
PLASTICITY_kinehardening_ID, &
phase_plasticity, &
phase_plasticityInstance, &
phase_Noutput, &
material_phase, &
plasticState, &
MATERIAL_partPhase
use lattice
use numerics,only: &
numerics_integrator
implicit none
integer(pInt), intent(in) :: fileUnit
integer(pInt), allocatable, dimension(:) :: chunkPos
integer(pInt) :: &
o, j, k, f, &
output_ID, &
phase, &
instance, &
maxNinstance, &
NipcMyPhase, &
Nchunks_SlipSlip = 0_pInt, Nchunks_SlipFamilies = 0_pInt, &
Nchunks_nonSchmid = 0_pInt, &
offset_slip, index_myFamily, index_otherFamily, &
startIndex, endIndex, &
mySize, nSlip, nSlipFamilies, &
sizeDotState, &
sizeState, &
sizeDeltaState
real(pReal), dimension(:), allocatable :: tempPerSlip
character(len=65536) :: &
tag = '', &
line = '', &
extmsg = ''
character(len=64) :: &
outputtag = ''
write(6,'(/,a)') ' <<<+- constitutive_'//PLASTICITY_KINEHARDENING_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90"
maxNinstance = int(count(phase_plasticity == PLASTICITY_KINEHARDENING_ID),pInt)
if (maxNinstance == 0_pInt) return
if (iand(debug_level(debug_constitutive),debug_levelBasic) /= 0_pInt) &
write(6,'(a,1x,i5,/)') '# instances:',maxNinstance
allocate(plastic_kinehardening_sizePostResults(maxNinstance), source=0_pInt)
allocate(plastic_kinehardening_sizePostResult(maxval(phase_Noutput),maxNinstance), &
source=0_pInt)
allocate(plastic_kinehardening_output(maxval(phase_Noutput),maxNinstance))
plastic_kinehardening_output = ''
allocate(plastic_kinehardening_Noutput(maxNinstance), source=0_pInt)
allocate(plastic_kinehardening_Nslip(lattice_maxNslipFamily,maxNinstance), source=0_pInt)
allocate(plastic_kinehardening_totalNslip(maxNinstance), source=0_pInt)
allocate(param(maxNinstance)) ! one container of parameters per instance
rewind(fileUnit)
phase = 0_pInt
do while (trim(line) /= IO_EOF .and. IO_lc(IO_getTag(line,'<','>')) /= material_partPhase) ! wind forward to <phase>
line = IO_read(fileUnit)
enddo
parsingFile: do while (trim(line) /= IO_EOF) ! read through sections of phase part
line = IO_read(fileUnit)
if (IO_isBlank(line)) cycle ! skip empty lines
if (IO_getTag(line,'<','>') /= '') then ! stop at next part
line = IO_read(fileUnit, .true.) ! reset IO_read
exit
endif
if (IO_getTag(line,'[',']') /= '') then ! next phase
phase = phase + 1_pInt ! advance phase section counter
if (phase_plasticity(phase) == PLASTICITY_KINEHARDENING_ID) then
instance = phase_plasticityInstance(phase) ! count instances of my constitutive law
Nchunks_SlipFamilies = count(lattice_NslipSystem(:,phase) > 0_pInt) ! maximum number of slip families according to lattice type of current phase
Nchunks_SlipSlip = maxval(lattice_interactionSlipSlip(:,:,phase))
Nchunks_nonSchmid = lattice_NnonSchmid(phase)
allocate(param(instance)%outputID(phase_Noutput(phase)), source=undefined_ID) ! allocate space for IDs of every requested output
allocate(param(instance)%crss0 (Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%tau1 (Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%tau1_b (Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%theta0 (Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%theta1 (Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%theta0_b(Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%theta1_b(Nchunks_SlipFamilies), source=0.0_pReal)
allocate(param(instance)%interaction_slipslip(Nchunks_SlipSlip), source=0.0_pReal)
allocate(param(instance)%nonSchmidCoeff(Nchunks_nonSchmid), source=0.0_pReal)
if(allocated(tempPerSlip)) deallocate(tempPerSlip)
allocate(tempPerSlip(Nchunks_SlipFamilies))
endif
cycle ! skip to next line
endif
if (phase > 0_pInt ) then; if (phase_plasticity(phase) == PLASTICITY_KINEHARDENING_ID) then ! one of my phases. Do not short-circuit here (.and. between if-statements), it's not safe in Fortran
instance = phase_plasticityInstance(phase) ! which instance of my plasticity is present phase
chunkPos = IO_stringPos(line)
tag = IO_lc(IO_stringValue(line,chunkPos,1_pInt)) ! extract key
select case(tag)
case ('(output)')
outputtag = IO_lc(IO_stringValue(line,chunkPos,2_pInt))
output_ID = undefined_ID
select case(outputtag)
case ('resistance')
output_ID = crss_ID
case ('backstress')
output_ID = crss_back_ID
case ('sense')
output_ID = sense_ID
case ('chi0')
output_ID = chi0_ID
case ('gamma0')
output_ID = gamma0_ID
case ('accumulatedshear')
output_ID = accshear_ID
case ('totalshear')
output_ID = sumGamma_ID
case ('shearrate')
output_ID = shearrate_ID
case ('resolvedstress')
output_ID = resolvedstress_ID
end select
if (output_ID /= undefined_ID) then
plastic_kinehardening_Noutput(instance) = plastic_kinehardening_Noutput(instance) + 1_pInt
plastic_kinehardening_output(plastic_kinehardening_Noutput(instance),instance) = outputtag
param(instance)%outputID (plastic_kinehardening_Noutput(instance)) = output_ID
endif
!--------------------------------------------------------------------------------------------------
! parameters depending on number of slip families
case ('nslip')
if (chunkPos(1) < Nchunks_SlipFamilies + 1_pInt) &
call IO_warning(50_pInt,ext_msg=trim(tag)//' ('//PLASTICITY_KINEHARDENING_label//')')
if (chunkPos(1) > Nchunks_SlipFamilies + 1_pInt) &
call IO_error(150_pInt,ext_msg=trim(tag)//' ('//PLASTICITY_KINEHARDENING_label//')')
Nchunks_SlipFamilies = chunkPos(1) - 1_pInt ! user specified number of (possibly) active slip families (e.g. 6 0 6 --> 3)
do j = 1_pInt, Nchunks_SlipFamilies
plastic_kinehardening_Nslip(j,instance) = IO_intValue(line,chunkPos,1_pInt+j)
enddo
case ('crss0','tau1','tau1_b','theta0','theta1','theta0_b','theta1_b')
tempPerSlip = 0.0_pReal
do j = 1_pInt, Nchunks_SlipFamilies
if (plastic_kinehardening_Nslip(j,instance) > 0_pInt) &
tempPerSlip(j) = IO_floatValue(line,chunkPos,1_pInt+j)
enddo
select case(tag)
case ('crss0')
param(instance)%crss0(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
case ('tau1')
param(instance)%tau1(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
case ('tau1_b')
param(instance)%tau1_b(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
case ('theta0')
param(instance)%theta0(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
case ('theta1')
param(instance)%theta1(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
case ('theta0_b')
param(instance)%theta0_b(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
case ('theta1_b')
param(instance)%theta1_b(1:Nchunks_SlipFamilies) = tempPerSlip(1:Nchunks_SlipFamilies)
end select
!--------------------------------------------------------------------------------------------------
! parameters depending on number of interactions
case ('interaction_slipslip')
if (chunkPos(1) < 1_pInt + Nchunks_SlipSlip) &
call IO_warning(52_pInt,ext_msg=trim(tag)//' ('//PLASTICITY_KINEHARDENING_label//')')
do j = 1_pInt, Nchunks_SlipSlip
param(instance)%interaction_slipslip(j) = IO_floatValue(line,chunkPos,1_pInt+j)
enddo
case ('nonschmidcoeff')
if (chunkPos(1) < 1_pInt + Nchunks_nonSchmid) &
call IO_warning(52_pInt,ext_msg=trim(tag)//' ('//PLASTICITY_KINEHARDENING_label//')')
do j = 1_pInt,Nchunks_nonSchmid
param(instance)%nonSchmidCoeff(j) = IO_floatValue(line,chunkPos,1_pInt+j)
enddo
!--------------------------------------------------------------------------------------------------
case ('gdot0')
param(instance)%gdot0 = IO_floatValue(line,chunkPos,2_pInt)
case ('n_slip')
param(instance)%n_slip = IO_floatValue(line,chunkPos,2_pInt)
case ('atol_resistance')
param(instance)%aTolResistance = IO_floatValue(line,chunkPos,2_pInt)
case ('atol_shear')
param(instance)%aTolShear = IO_floatValue(line,chunkPos,2_pInt)
case default
end select
endif; endif
enddo parsingFile
!--------------------------------------------------------------------------------------------------
! allocation of variables whose size depends on the total number of active slip systems
allocate(state(maxNinstance))
allocate(state0(maxNinstance))
allocate(dotState(maxNinstance))
allocate(deltaState(maxNinstance))
initializeInstances: do phase = 1_pInt, size(phase_plasticity) ! loop through all phases in material.config
myPhase2: if (phase_plasticity(phase) == PLASTICITY_KINEHARDENING_ID) then ! only consider my phase
NipcMyPhase = count(material_phase == phase) ! number of IPCs containing my phase
instance = phase_plasticityInstance(phase) ! which instance of my phase
plastic_kinehardening_Nslip(1:lattice_maxNslipFamily,instance) = &
min(lattice_NslipSystem(1:lattice_maxNslipFamily,phase),& ! limit active slip systems per family to min of available and requested
plastic_kinehardening_Nslip(1:lattice_maxNslipFamily,instance))
plastic_kinehardening_totalNslip(instance) = sum(plastic_kinehardening_Nslip(:,instance)) ! how many slip systems altogether
nSlipFamilies = count(plastic_kinehardening_Nslip(:,instance) > 0_pInt)
nSlip = plastic_kinehardening_totalNslip(instance) ! total number of active slip systems
!--------------------------------------------------------------------------------------------------
! sanity checks
if (any(plastic_kinehardening_Nslip(1:nSlipFamilies,instance) > 0_pInt &
.and. param(instance)%crss0(1:nSlipFamilies) < 0.0_pReal)) extmsg = trim(extmsg)//' crss0'
if (any(plastic_kinehardening_Nslip(1:nSlipFamilies,instance) > 0_pInt &
.and. param(instance)%tau1(1:nSlipFamilies) <= 0.0_pReal)) extmsg = trim(extmsg)//' tau1'
if (any(plastic_kinehardening_Nslip(1:nSlipFamilies,instance) > 0_pInt &
.and. param(instance)%tau1_b(1:nSlipFamilies) < 0.0_pReal)) extmsg = trim(extmsg)//' tau1_b'
if (param(instance)%gdot0 <= 0.0_pReal) extmsg = trim(extmsg)//' gdot0'
if (param(instance)%n_slip <= 0.0_pReal) extmsg = trim(extmsg)//' n_slip'
if (param(instance)%aTolResistance <= 0.0_pReal) param(instance)%aTolResistance = 1.0_pReal ! default absolute tolerance 1 Pa
if (param(instance)%aTolShear <= 0.0_pReal) param(instance)%aTolShear = 1.0e-6_pReal ! default absolute tolerance 1e-6
if (extmsg /= '') then
extmsg = trim(extmsg)//' ('//PLASTICITY_KINEHARDENING_label//')' ! prepare error message identifier
call IO_error(211_pInt,ip=instance,ext_msg=extmsg)
endif
!--------------------------------------------------------------------------------------------------
! Determine size of postResults array
outputsLoop: do o = 1_pInt,plastic_kinehardening_Noutput(instance)
select case(param(instance)%outputID(o))
case(crss_ID, & !< critical resolved stress
crss_back_ID, & !< critical resolved back stress
sense_ID, & !< sense of acting shear stress (-1 or +1)
chi0_ID, & !< backstress at last switch of stress sense
gamma0_ID, & !< accumulated shear at last switch of stress sense
accshear_ID, &
shearrate_ID, &
resolvedstress_ID)
mySize = nSlip
case(sumGamma_ID)
mySize = 1_pInt
case default
end select
outputFound: if (mySize > 0_pInt) then
plastic_kinehardening_sizePostResult(o,instance) = mySize
plastic_kinehardening_sizePostResults(instance) = plastic_kinehardening_sizePostResults(instance) + mySize
endif outputFound
enddo outputsLoop
!--------------------------------------------------------------------------------------------------
! allocate state arrays
sizeDotState = nSlip & !< crss
+ nSlip & !< crss_back
+ nSlip & !< accumulated (absolute) shear
+ 1_pInt !< sum(gamma)
sizeDeltaState = nSlip & !< sense of acting shear stress (-1 or +1)
+ nSlip & !< backstress at last switch of stress sense
+ nSlip !< accumulated shear at last switch of stress sense
sizeState = sizeDotState + sizeDeltaState
plasticState(phase)%sizeState = sizeState
plasticState(phase)%sizeDotState = sizeDotState
plasticState(phase)%sizeDeltaState = sizeDeltaState
plasticState(phase)%offsetDeltaState = sizeDotState
plasticState(phase)%sizePostResults = plastic_kinehardening_sizePostResults(instance)
plasticState(phase)%nSlip = nSlip
allocate(plasticState(phase)%state0 ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(phase)%partionedState0 ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(phase)%subState0 ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(phase)%state ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(phase)%aTolState (sizeDotState), source=0.0_pReal)
allocate(plasticState(phase)%dotState (sizeDotState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(phase)%deltaState (sizeDeltaState,NipcMyPhase), source=0.0_pReal) ! allocate space for deltaState
if (any(numerics_integrator == 1_pInt)) then
allocate(plasticState(phase)%previousDotState (sizeDotState,NipcMyPhase),source=0.0_pReal)
allocate(plasticState(phase)%previousDotState2(sizeDotState,NipcMyPhase),source=0.0_pReal)
endif
if (any(numerics_integrator == 4_pInt)) &
allocate(plasticState(phase)%RK4dotState (sizeDotState,NipcMyPhase), source=0.0_pReal)
if (any(numerics_integrator == 5_pInt)) &
allocate(plasticState(phase)%RKCK45dotState (6,sizeDotState,NipcMyPhase), source=0.0_pReal)
offset_slip = plasticState(phase)%nSlip+plasticState(phase)%nTwin+2_pInt
plasticState(phase)%slipRate => &
plasticState(phase)%dotState(offset_slip+1:offset_slip+plasticState(phase)%nSlip,1:NipcMyPhase)
plasticState(phase)%accumulatedSlip => &
plasticState(phase)%state(offset_slip+1:offset_slip+plasticState(phase)%nSlip,1:NipcMyPhase)
allocate(param(instance)%hardeningMatrix_SlipSlip(nSlip,nSlip), source=0.0_pReal)
do f = 1_pInt,lattice_maxNslipFamily ! >>> interaction slip -- X
index_myFamily = sum(plastic_kinehardening_Nslip(1:f-1_pInt,instance))
do j = 1_pInt,plastic_kinehardening_Nslip(f,instance) ! loop over (active) systems in my family (slip)
do o = 1_pInt,lattice_maxNslipFamily
index_otherFamily = sum(plastic_kinehardening_Nslip(1:o-1_pInt,instance))
do k = 1_pInt,plastic_kinehardening_Nslip(o,instance) ! loop over (active) systems in other family (slip)
param(instance)%hardeningMatrix_SlipSlip(index_myFamily+j,index_otherFamily+k) = &
param(instance)%interaction_SlipSlip(lattice_interactionSlipSlip( &
sum(lattice_NslipSystem(1:f-1,phase))+j, &
sum(lattice_NslipSystem(1:o-1,phase))+k, &
phase))
enddo; enddo
enddo; enddo
!----------------------------------------------------------------------------------------------
!locally define dotState alias
endindex = 0_pInt
o = endIndex ! offset of dotstate index relative to state index
startIndex = endIndex + 1_pInt
endIndex = endIndex + nSlip
state (instance)%crss => plasticState(phase)%state (startIndex :endIndex ,1:NipcMyPhase)
state0 (instance)%crss => plasticState(phase)%state0 (startIndex :endIndex ,1:NipcMyPhase)
dotState(instance)%crss => plasticState(phase)%dotState (startIndex-o:endIndex-o,1:NipcMyPhase)
state0(instance)%crss = spread(math_expand(param(instance)%crss0,&
plastic_kinehardening_Nslip(:,instance)), &
2, NipcMyPhase)
plasticState(phase)%aTolState(startIndex-o:endIndex-o) = param(instance)%aTolResistance
! .............................................
startIndex = endIndex + 1_pInt
endIndex = endIndex + nSlip
state (instance)%crss_back => plasticState(phase)%state (startIndex :endIndex ,1:NipcMyPhase)
state0 (instance)%crss_back => plasticState(phase)%state0 (startIndex :endIndex ,1:NipcMyPhase)
dotState(instance)%crss_back => plasticState(phase)%dotState (startIndex-o:endIndex-o,1:NipcMyPhase)
state0(instance)%crss_back = 0.0_pReal
plasticState(phase)%aTolState(startIndex-o:endIndex-o) = param(instance)%aTolResistance
! .............................................
startIndex = endIndex + 1_pInt
endIndex = endIndex + nSlip
state (instance)%accshear => plasticState(phase)%state (startIndex :endIndex ,1:NipcMyPhase)
state0 (instance)%accshear => plasticState(phase)%state0 (startIndex :endIndex ,1:NipcMyPhase)
dotState(instance)%accshear => plasticState(phase)%dotState (startIndex-o:endIndex-o,1:NipcMyPhase)
state0(instance)%accshear = 0.0_pReal
plasticState(phase)%aTolState(startIndex-o:endIndex-o) = param(instance)%aTolShear
! .............................................
startIndex = endIndex + 1_pInt
endIndex = endIndex + 1_pInt
state (instance)%sumGamma => plasticState(phase)%state (startIndex ,1:NipcMyPhase)
state0 (instance)%sumGamma => plasticState(phase)%state0 (startIndex ,1:NipcMyPhase)
dotState(instance)%sumGamma => plasticState(phase)%dotState (startIndex-o ,1:NipcMyPhase)
state0(instance)%sumGamma = 0.0_pReal
plasticState(phase)%aTolState(startIndex-o:endIndex-o) = param(instance)%aTolShear
!----------------------------------------------------------------------------------------------
!locally define deltaState alias
o = endIndex
! .............................................
startIndex = endIndex + 1_pInt
endIndex = endIndex + nSlip
state (instance)%sense => plasticState(phase)%state (startIndex :endIndex ,1:NipcMyPhase)
state0 (instance)%sense => plasticState(phase)%state0 (startIndex :endIndex ,1:NipcMyPhase)
deltaState(instance)%sense => plasticState(phase)%deltaState(startIndex-o:endIndex-o,1:NipcMyPhase)
state0(instance)%sense = 0.0_pReal
! .............................................
startIndex = endIndex + 1_pInt
endIndex = endIndex + nSlip
state (instance)%chi0 => plasticState(phase)%state (startIndex :endIndex ,1:NipcMyPhase)
state0 (instance)%chi0 => plasticState(phase)%state0 (startIndex :endIndex ,1:NipcMyPhase)
deltaState(instance)%chi0 => plasticState(phase)%deltaState(startIndex-o:endIndex-o,1:NipcMyPhase)
state0(instance)%chi0 = 0.0_pReal
! .............................................
startIndex = endIndex + 1_pInt
endIndex = endIndex + nSlip
state (instance)%gamma0 => plasticState(phase)%state (startIndex :endIndex ,1:NipcMyPhase)
state0 (instance)%gamma0 => plasticState(phase)%state0 (startIndex :endIndex ,1:NipcMyPhase)
deltaState(instance)%gamma0 => plasticState(phase)%deltaState(startIndex-o:endIndex-o,1:NipcMyPhase)
state0(instance)%gamma0 = 0.0_pReal
endif myPhase2
enddo initializeInstances
end subroutine plastic_kinehardening_init
!--------------------------------------------------------------------------------------------------
!> @brief calculation of shear rates (\dot \gamma)
!--------------------------------------------------------------------------------------------------
subroutine plastic_kinehardening_shearRates(gdot_pos,gdot_neg,tau_pos,tau_neg, &
Tstar_v,ph,instance,of)
use lattice, only: &
lattice_NslipSystem, &
lattice_Sslip_v, &
lattice_maxNslipFamily, &
lattice_NnonSchmid
implicit none
real(pReal), dimension(6), intent(in) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
integer(pInt), intent(in) :: &
ph, & !< phase ID
instance, & !< instance of that phase
of !< index of phaseMember
real(pReal), dimension(plastic_kinehardening_totalNslip(instance)), intent(out) :: &
gdot_pos, & !< shear rates from positive line segments
gdot_neg, & !< shear rates from negative line segments
tau_pos, & !< shear stress on positive line segments
tau_neg !< shear stress on negative line segments
integer(pInt) :: &
index_myFamily, &
f,i,j,k
j = 0_pInt
slipFamilies: do f = 1_pInt,lattice_maxNslipFamily
index_myFamily = sum(lattice_NslipSystem(1:f-1_pInt,ph)) ! at which index starts my family
slipSystems: do i = 1_pInt,plastic_kinehardening_Nslip(f,instance)
j = j + 1_pInt
tau_pos(j) = dot_product(Tstar_v,lattice_Sslip_v(1:6,1,index_myFamily+i,ph))
tau_neg(j) = tau_pos(j)
nonSchmidSystems: do k = 1,lattice_NnonSchmid(ph)
tau_pos(j) = tau_pos(j) + param(instance)%nonSchmidCoeff(k)* &
dot_product(Tstar_v,lattice_Sslip_v(1:6,2*k+0,index_myFamily+i,ph))
tau_neg(j) = tau_neg(j) + param(instance)%nonSchmidCoeff(k)* &
dot_product(Tstar_v,lattice_Sslip_v(1:6,2*k+1,index_myFamily+i,ph))
enddo nonSchmidSystems
enddo slipSystems
enddo slipFamilies
gdot_pos = 0.5_pReal * param(instance)%gdot0 * &
(abs(tau_pos-state(instance)%crss_back(:,of))/ &
state(instance)%crss(:,of))**param(instance)%n_slip &
*sign(1.0_pReal,tau_pos-state(instance)%crss_back(:,of))
gdot_neg = 0.5_pReal * param(instance)%gdot0 * &
(abs(tau_neg-state(instance)%crss_back(:,of))/ &
state(instance)%crss(:,of))**param(instance)%n_slip &
*sign(1.0_pReal,tau_neg-state(instance)%crss_back(:,of))
end subroutine plastic_kinehardening_shearRates
!--------------------------------------------------------------------------------------------------
!> @brief calculates plastic velocity gradient and its tangent
!--------------------------------------------------------------------------------------------------
subroutine plastic_kinehardening_LpAndItsTangent(Lp,dLp_dTstar99, &
Tstar_v,ipc,ip,el)
use prec, only: &
dNeq0
use debug, only: &
debug_level, &
debug_constitutive, &
debug_levelExtensive, &
debug_levelSelective, &
debug_e, &
debug_i, &
debug_g
use math, only: &
math_Plain3333to99, &
math_Mandel6to33, &
math_transpose33
use lattice, only: &
lattice_Sslip, & !< schmid matrix
lattice_Sslip_v, &
lattice_maxNslipFamily, &
lattice_NslipSystem, &
lattice_NnonSchmid
use material, only: &
phaseAt, phasememberAt, &
phase_plasticityInstance
implicit none
real(pReal), dimension(3,3), intent(out) :: &
Lp !< plastic velocity gradient
real(pReal), dimension(9,9), intent(out) :: &
dLp_dTstar99 !< derivative of Lp with respect to 2nd Piola Kirchhoff stress
integer(pInt), intent(in) :: &
ipc, & !< component-ID of integration point
ip, & !< integration point
el !< element
real(pReal), dimension(6), intent(in) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
integer(pInt) :: &
instance, &
index_myFamily, &
f,i,j,k,l,m,n, &
of, &
ph
real(pReal), dimension(plastic_kinehardening_totalNslip(phase_plasticityInstance(phaseAt(ipc,ip,el)))) :: &
gdot_pos,gdot_neg, &
tau_pos,tau_neg
real(pReal) :: &
dgdot_dtau_pos,dgdot_dtau_neg
real(pReal), dimension(3,3,3,3) :: &
dLp_dTstar3333 !< derivative of Lp with respect to Tstar as 4th order tensor
real(pReal), dimension(3,3,2) :: &
nonSchmid_tensor
ph = phaseAt(ipc,ip,el) !< figures phase for each material point
of = phasememberAt(ipc,ip,el) !< index of the positions of each constituent of material point, phasememberAt is a function in material that helps figure them out
instance = phase_plasticityInstance(ph)
Lp = 0.0_pReal
dLp_dTstar3333 = 0.0_pReal
dLp_dTstar99 = 0.0_pReal
call plastic_kinehardening_shearRates(gdot_pos,gdot_neg,tau_pos,tau_neg, &
Tstar_v,ph,instance,of)
j = 0_pInt ! reading and marking the starting index for each slip family
slipFamilies: do f = 1_pInt,lattice_maxNslipFamily
index_myFamily = sum(lattice_NslipSystem(1:f-1_pInt,ph)) ! at which index starts my family
slipSystems: do i = 1_pInt,plastic_kinehardening_Nslip(f,instance)
j = j + 1_pInt
! build nonSchmid tensor
nonSchmid_tensor(1:3,1:3,1) = lattice_Sslip(1:3,1:3,1,index_myFamily+i,ph)
nonSchmid_tensor(1:3,1:3,2) = nonSchmid_tensor(1:3,1:3,1)
do k = 1,lattice_NnonSchmid(ph)
nonSchmid_tensor(1:3,1:3,1) = &
nonSchmid_tensor(1:3,1:3,1) + param(instance)%nonSchmidCoeff(k) * &
lattice_Sslip(1:3,1:3,2*k,index_myFamily+i,ph)
nonSchmid_tensor(1:3,1:3,2) = &
nonSchmid_tensor(1:3,1:3,2) + param(instance)%nonSchmidCoeff(k) * &
lattice_Sslip(1:3,1:3,2*k+1,index_myFamily+i,ph)
enddo
Lp = Lp + (gdot_pos(j)+gdot_neg(j))*lattice_Sslip(1:3,1:3,1,index_myFamily+i,ph) ! sum of all gdot*SchmidTensor gives Lp
! Calculation of the tangent of Lp ! sensitivity of Lp
if (dNeq0(gdot_pos(j))) then
dgdot_dtau_pos = gdot_pos(j)*param(instance)%n_slip/(tau_pos(j)-state(instance)%crss_back(j,of))
forall (k=1_pInt:3_pInt,l=1_pInt:3_pInt,m=1_pInt:3_pInt,n=1_pInt:3_pInt) &
dLp_dTstar3333(k,l,m,n) = &
dLp_dTstar3333(k,l,m,n) + dgdot_dtau_pos*lattice_Sslip(k,l,1,index_myFamily+i,ph)* &
nonSchmid_tensor(m,n,1)
endif
if (dNeq0(gdot_neg(j))) then
dgdot_dtau_neg = gdot_neg(j)*param(instance)%n_slip/(tau_neg(j)-state(instance)%crss_back(j,of))
forall (k=1_pInt:3_pInt,l=1_pInt:3_pInt,m=1_pInt:3_pInt,n=1_pInt:3_pInt) &
dLp_dTstar3333(k,l,m,n) = &
dLp_dTstar3333(k,l,m,n) + dgdot_dtau_neg*lattice_Sslip(k,l,1,index_myFamily+i,ph)* &
nonSchmid_tensor(m,n,2)
endif
enddo slipSystems
enddo slipFamilies
dLp_dTstar99 = math_Plain3333to99(dLp_dTstar3333)
end subroutine plastic_kinehardening_LpAndItsTangent
!--------------------------------------------------------------------------------------------------
!> @brief calculates (instantaneous) incremental change of microstructure
!--------------------------------------------------------------------------------------------------
subroutine plastic_kinehardening_deltaState(Tstar_v,ipc,ip,el)
use prec, only: &
dNeq, &
dEq0
use debug, only: &
debug_level, &
debug_constitutive, &
debug_levelExtensive, &
debug_levelSelective, &
debug_e, &
debug_i, &
debug_g
use material, only: &
phaseAt, &
phasememberAt, &
phase_plasticityInstance
implicit none
real(pReal), dimension(6), intent(in):: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
integer(pInt), intent(in) :: &
ipc, & !< component-ID of integration point
ip, & !< integration point
el !< element
real(pReal), dimension(6) :: &
Tstar_dev_v !< deviatoric 2nd Piola Kirchhoff stress tensor in Mandel notation
real(pReal), dimension(plastic_kinehardening_totalNslip(phase_plasticityInstance(phaseAt(ipc,ip,el)))) :: &
gdot_pos,gdot_neg, &
tau_pos,tau_neg, &
sense
integer(pInt) :: &
ph, &
instance, & !< instance of my instance (unique number of my constitutive model)
of, &
j !< shortcut notation for offset position in state array
ph = phaseAt(ipc,ip,el)
of = phasememberAt(ipc,ip,el) ! phasememberAt should be tackled by material and be renamed to material_phasemember
instance = phase_plasticityInstance(ph)
call plastic_kinehardening_shearRates(gdot_pos,gdot_neg,tau_pos,tau_neg, &
Tstar_v,ph,instance,of)
sense = merge(state(instance)%sense(:,of), & ! keep existing...
sign(1.0_pReal,gdot_pos+gdot_neg), & ! ...or have a defined
dEq0(gdot_pos+gdot_neg,1e-10_pReal)) ! current sense of shear direction
#ifdef DEBUG
if (iand(debug_level(debug_constitutive), debug_levelExtensive) /= 0_pInt &
.and. ((el == debug_e .and. ip == debug_i .and. ipc == debug_g) &
.or. .not. iand(debug_level(debug_constitutive),debug_levelSelective) /= 0_pInt)) then
write(6,'(a)') '======= kinehardening delta state ======='
endif
#endif
!--------------------------------------------------------------------------------------------------
! switch in sense of shear?
do j = 1,plastic_kinehardening_totalNslip(instance)
#ifdef DEBUG
if (iand(debug_level(debug_constitutive), debug_levelExtensive) /= 0_pInt &
.and. ((el == debug_e .and. ip == debug_i .and. ipc == debug_g) &
.or. .not. iand(debug_level(debug_constitutive),debug_levelSelective) /= 0_pInt)) then
write(6,'(i2,1x,f7.4,1x,f7.4)') j,sense(j),state(instance)%sense(j,of)
endif
#endif
if (dNeq(sense(j),state(instance)%sense(j,of),0.1_pReal)) then
deltaState(instance)%sense (j,of) = sense(j) - state(instance)%sense(j,of) ! switch sense
deltaState(instance)%chi0 (j,of) = abs(state(instance)%crss_back(j,of)) - state(instance)%chi0(j,of) ! remember current backstress magnitude
deltaState(instance)%gamma0(j,of) = state(instance)%accshear(j,of) - state(instance)%gamma0(j,of) ! remember current accumulated shear
else
deltaState(instance)%sense (j,of) = 0.0_pReal ! no change
deltaState(instance)%chi0 (j,of) = 0.0_pReal
deltaState(instance)%gamma0(j,of) = 0.0_pReal
endif
enddo
end subroutine plastic_kinehardening_deltaState
!--------------------------------------------------------------------------------------------------
!> @brief calculates the rate of change of microstructure
!--------------------------------------------------------------------------------------------------
subroutine plastic_kinehardening_dotState(Tstar_v,ipc,ip,el)
use lattice, only: &
lattice_Sslip_v, &
lattice_maxNslipFamily, &
lattice_NslipSystem, &
lattice_NnonSchmid
use material, only: &
material_phase, &
phaseAt, phasememberAt, &
plasticState, &
phase_plasticityInstance
implicit none
real(pReal), dimension(6), intent(in) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation, vector form
integer(pInt), intent(in) :: &
ipc, & !< component-ID of integration point
ip, & !< integration point
el !< element !< microstructure state
integer(pInt) :: &
instance,ph, &
f,i,j,k, &
index_myFamily,index_otherFamily, &
nSlip, &
offset_accshear, &
of
real(pReal), dimension(plastic_kinehardening_totalNslip(phase_plasticityInstance(material_phase(ipc,ip,el)))) :: &
gdot_pos,gdot_neg, &
tau_pos,tau_neg
of = phasememberAt(ipc,ip,el)
ph = phaseAt(ipc,ip,el)
instance = phase_plasticityInstance(ph)
nSlip = plastic_kinehardening_totalNslip(instance)
dotState(instance)%sumGamma(of) = 0.0_pReal
call plastic_kinehardening_shearRates(gdot_pos,gdot_neg,tau_pos,tau_neg, &
Tstar_v,ph,instance,of)
j = 0_pInt
slipFamilies: do f = 1_pInt,lattice_maxNslipFamily
slipSystems: do i = 1_pInt,plastic_kinehardening_Nslip(f,instance)
j = j+1_pInt
dotState(instance)%crss(j,of) = & ! evolution of slip resistance j
dot_product(param(instance)%hardeningMatrix_SlipSlip(j,1:nSlip),abs(gdot_pos+gdot_neg)) * &
( param(instance)%theta1(f) + &
(param(instance)%theta0(f) - param(instance)%theta1(f) &
+ param(instance)%theta0(f)*param(instance)%theta1(f)*state(instance)%sumGamma(of)/param(instance)%tau1(f)) &
*exp(-state(instance)%sumGamma(of)*param(instance)%theta0(f)/param(instance)%tau1(f)) & ! V term depending on the harding law
)
dotState(instance)%crss_back(j,of) = & ! evolution of back stress resistance j
state(instance)%sense(j,of)*abs(gdot_pos(j)+gdot_neg(j)) * &
( param(instance)%theta1_b(f) + &
(param(instance)%theta0_b(f) - param(instance)%theta1_b(f) &
+ param(instance)%theta0_b(f)*param(instance)%theta1_b(f)/(param(instance)%tau1_b(f)+state(instance)%chi0(j,of)) &
*(state(instance)%accshear(j,of)-state(instance)%gamma0(j,of))) &
*exp(-(state(instance)%accshear(j,of)-state(instance)%gamma0(j,of)) &
*param(instance)%theta0_b(f)/(param(instance)%tau1_b(f)+state(instance)%chi0(j,of))) &
) ! V term depending on the harding law for back stress
dotState(instance)%accshear(j,of) = abs(gdot_pos(j)+gdot_neg(j))
dotState(instance)%sumGamma(of) = dotState(instance)%sumGamma(of) + dotState(instance)%accshear(j,of)
enddo slipSystems
enddo slipFamilies
end subroutine plastic_kinehardening_dotState
!--------------------------------------------------------------------------------------------------
!> @brief return array of constitutive results
!--------------------------------------------------------------------------------------------------
function plastic_kinehardening_postResults(Tstar_v,ipc,ip,el)
use material, only: &
material_phase, &
plasticState, &
phaseAt, phasememberAt, &
phase_plasticityInstance
use lattice, only: &
lattice_Sslip_v, &
lattice_maxNslipFamily, &
lattice_NslipSystem, &
lattice_NnonSchmid
implicit none
real(pReal), dimension(6), intent(in) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
integer(pInt), intent(in) :: &
ipc, & !< component-ID of integration point
ip, & !< integration point
el !< element !< microstructure state
real(pReal), dimension(plastic_kinehardening_sizePostResults(phase_plasticityInstance(material_phase(ipc,ip,el)))) :: &
plastic_kinehardening_postResults
integer(pInt) :: &
instance,ph, of, &
nSlip,&
o,f,i,c,j,k, &
index_myFamily
real(pReal), dimension(plastic_kinehardening_totalNslip(phase_plasticityInstance(material_phase(ipc,ip,el)))) :: &
gdot_pos,gdot_neg, &
tau_pos,tau_neg
of = phasememberAt(ipc,ip,el)
ph = phaseAt(ipc,ip,el)
instance = phase_plasticityInstance(ph)
nSlip = plastic_kinehardening_totalNslip(instance)
plastic_kinehardening_postResults = 0.0_pReal
c = 0_pInt
call plastic_kinehardening_shearRates(gdot_pos,gdot_neg,tau_pos,tau_neg, &
Tstar_v,ph,instance,of)
outputsLoop: do o = 1_pInt,plastic_kinehardening_Noutput(instance)
select case(param(instance)%outputID(o))
case (crss_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = state(instance)%crss(:,of)
c = c + nSlip
case(crss_back_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = state(instance)%crss_back(:,of)
c = c + nSlip
case (sense_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = state(instance)%sense(:,of)
c = c + nSlip
case (chi0_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = state(instance)%chi0(:,of)
c = c + nSlip
case (gamma0_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = state(instance)%gamma0(:,of)
c = c + nSlip
case (accshear_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = state(instance)%accshear(:,of)
c = c + nSlip
case (sumGamma_ID)
plastic_kinehardening_postResults(c+1_pInt) = state(instance)%sumGamma(of)
c = c + 1_pInt
case (shearrate_ID)
plastic_kinehardening_postResults(c+1_pInt:c+nSlip) = gdot_pos+gdot_neg
c = c + nSlip
case (resolvedstress_ID)
j = 0_pInt
slipFamilies: do f = 1_pInt,lattice_maxNslipFamily
index_myFamily = sum(lattice_NslipSystem(1:f-1_pInt,ph)) ! at which index starts my family
slipSystems: do i = 1_pInt,plastic_kinehardening_Nslip(f,instance)
j = j + 1_pInt
plastic_kinehardening_postResults(c+j) = &
dot_product(Tstar_v,lattice_Sslip_v(1:6,1,index_myFamily+i,ph))
enddo slipSystems
enddo slipFamilies
c = c + nSlip
end select
enddo outputsLoop
end function plastic_kinehardening_postResults
end module plastic_kinehardening