DAMASK_EICMD/src/plastic_phenopowerlaw.f90

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!--------------------------------------------------------------------------------------------------
!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
!> @author Martin Diehl, Max-Planck-Institut für Eisenforschung GmbH
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!> @brief material subroutine for phenomenological crystal plasticity formulation using a powerlaw
!! fitting
!--------------------------------------------------------------------------------------------------
module plastic_phenopowerlaw
use prec, only: &
pReal,&
pInt
implicit none
private
integer(pInt), dimension(:,:), allocatable, target, public :: &
plastic_phenopowerlaw_sizePostResult !< size of each post result output
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character(len=64), dimension(:,:), allocatable, target, public :: &
plastic_phenopowerlaw_output !< name of each post result output
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enum, bind(c)
enumerator :: &
undefined_ID, &
resistance_slip_ID, &
accumulatedshear_slip_ID, &
shearrate_slip_ID, &
resolvedstress_slip_ID, &
totalshear_ID, &
resistance_twin_ID, &
accumulatedshear_twin_ID, &
shearrate_twin_ID, &
resolvedstress_twin_ID, &
totalvolfrac_twin_ID
end enum
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type, private :: tParameters !< container type for internal constitutive parameters
integer(pInt) :: &
totalNslip, &
totalNtwin
real(pReal) :: &
gdot0_slip, & !< reference shear strain rate for slip
gdot0_twin, & !< reference shear strain rate for twin
n_slip, & !< stress exponent for slip
n_twin, & !< stress exponent for twin
spr, & !< push-up factor for slip saturation due to twinning
twinB, &
twinC, &
twinD, &
twinE, &
h0_SlipSlip, & !< reference hardening slip - slip
h0_TwinSlip, & !< reference hardening twin - slip
h0_TwinTwin, & !< reference hardening twin - twin
a_slip, &
aTolResistance, & ! default absolute tolerance 1 Pa
aTolShear, & ! default absolute tolerance 1e-6
aTolTwinfrac ! default absolute tolerance 1e-6
integer(pInt), dimension(:), allocatable :: &
Nslip, & !< active number of slip systems per family
Ntwin !< active number of twin systems per family
real(pReal), dimension(:), allocatable :: &
xi_slip_0, & !< initial critical shear stress for slip
xi_twin_0, & !< initial critical shear stress for twin
xi_slip_sat, & !< maximum critical shear stress for slip
nonSchmidCoeff, &
H_int, & !< per family hardening activity (optional) !ToDo: Better name!
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gamma_twin_char !< characteristic shear for twins
real(pReal), dimension(:,:), allocatable :: &
interaction_SlipSlip, & !< slip resistance from slip activity
interaction_SlipTwin, & !< slip resistance from twin activity
interaction_TwinSlip, & !< twin resistance from slip activity
interaction_TwinTwin !< twin resistance from twin activity
real(pReal), dimension(:,:,:), allocatable :: &
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Schmid_slip, &
Schmid_twin, &
nonSchmid_pos, &
nonSchmid_neg
integer(kind(undefined_ID)), dimension(:), allocatable :: &
outputID !< ID of each post result output
end type
type(tParameters), dimension(:), allocatable, private :: param !< containers of constitutive parameters (len Ninstance)
type, private :: tPhenopowerlawState
real(pReal), pointer, dimension(:,:) :: &
xi_slip, &
xi_twin, &
gamma_slip, &
gamma_twin, &
whole
real(pReal), pointer, dimension(:) :: &
sumGamma, &
sumF
end type
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type(tPhenopowerlawState), allocatable, dimension(:), private :: &
dotState, &
state
public :: &
plastic_phenopowerlaw_init, &
plastic_phenopowerlaw_LpAndItsTangent, &
plastic_phenopowerlaw_dotState, &
plastic_phenopowerlaw_postResults
contains
!--------------------------------------------------------------------------------------------------
!> @brief module initialization
!> @details reads in material parameters, allocates arrays, and does sanity checks
!--------------------------------------------------------------------------------------------------
subroutine plastic_phenopowerlaw_init
#if defined(__GFORTRAN__) || __INTEL_COMPILER >= 1800
use, intrinsic :: iso_fortran_env, only: &
compiler_version, &
compiler_options
#endif
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use prec, only: &
dEq0
use debug, only: &
debug_level, &
debug_constitutive,&
debug_levelBasic
use math, only: &
math_expand
use IO, only: &
IO_warning, &
IO_error, &
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IO_timeStamp
use material, only: &
phase_plasticity, &
phase_plasticityInstance, &
phase_Noutput, &
PLASTICITY_PHENOPOWERLAW_LABEL, &
PLASTICITY_PHENOPOWERLAW_ID, &
material_phase, &
plasticState
use config, only: &
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MATERIAL_partPhase, &
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config_phase
use lattice
use numerics,only: &
numerics_integrator
implicit none
integer(pInt) :: &
maxNinstance, &
instance,p,j,k, o, i,&
NipcMyPhase, outputSize, &
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sizeState,sizeDotState, &
startIndex, endIndex
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integer(pInt), dimension(0), parameter :: emptyIntArray = [integer(pInt)::]
real(pReal), dimension(0), parameter :: emptyRealArray = [real(pReal)::]
character(len=65536), dimension(0), parameter :: emptyStringArray = [character(len=65536)::]
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type(tParameters) :: &
prm
type(tPhenopowerlawState) :: &
stt, &
dot
integer(kind(undefined_ID)) :: &
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outputID !< ID of each post result output
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character(len=512) :: &
extmsg = '', &
structure = ''
character(len=65536), dimension(:), allocatable :: outputs
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write(6,'(/,a)') ' <<<+- constitutive_'//PLASTICITY_PHENOPOWERLAW_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90"
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maxNinstance = int(count(phase_plasticity == PLASTICITY_PHENOPOWERLAW_ID),pInt)
if (iand(debug_level(debug_constitutive),debug_levelBasic) /= 0_pInt) &
write(6,'(a16,1x,i5,/)') '# instances:',maxNinstance
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allocate(plastic_phenopowerlaw_sizePostResult(maxval(phase_Noutput),maxNinstance),source=0_pInt)
allocate(plastic_phenopowerlaw_output(maxval(phase_Noutput),maxNinstance))
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plastic_phenopowerlaw_output = ''
allocate(param(maxNinstance)) ! one container of parameters per instance
allocate(state(maxNinstance))
allocate(dotState(maxNinstance))
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do p = 1_pInt, size(phase_plasticityInstance)
if (phase_plasticity(p) /= PLASTICITY_PHENOPOWERLAW_ID) cycle
instance = phase_plasticityInstance(p)
associate(prm => param(instance),stt => state(instance),dot => dotState(instance))
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extmsg = ''
structure = config_phase(p)%getString('lattice_structure')
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prm%Nslip = config_phase(p)%getInts('nslip',defaultVal=emptyIntArray)
prm%totalNslip = sum(prm%Nslip)
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if (size(prm%Nslip) > count(lattice_NslipSystem(:,p) > 0_pInt)) &
call IO_error(150_pInt,ext_msg='Nslip')
if (any(lattice_NslipSystem(1:size(prm%Nslip),p)-prm%Nslip < 0_pInt)) &
call IO_error(150_pInt,ext_msg='Nslip')
slipActive: if (prm%totalNslip > 0_pInt) then
prm%Schmid_slip = lattice_SchmidMatrix_slip(prm%Nslip,structure(1:3),&
config_phase(p)%getFloat('c/a',defaultVal=0.0_pReal))
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! reading in slip related parameters
prm%xi_slip_0 = config_phase(p)%getFloats('tau0_slip', requiredShape=shape(prm%Nslip))
prm%xi_slip_sat = config_phase(p)%getFloats('tausat_slip', requiredShape=shape(prm%Nslip))
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prm%interaction_SlipSlip = lattice_interaction_SlipSlip(prm%Nslip,config_phase(p)%getFloats('interaction_slipslip'), &
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structure(1:3))
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prm%H_int = config_phase(p)%getFloats('h_int', requiredShape=shape(prm%Nslip), &
defaultVal=[(0.0_pReal,i=1_pInt,size(prm%Nslip))])
prm%nonSchmidCoeff = config_phase(p)%getFloats('nonschmid_coefficients',&
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defaultVal = emptyRealArray )
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if(structure=='bcc') then
prm%nonSchmid_pos = lattice_nonSchmidMatrix(prm%Nslip,prm%nonSchmidCoeff,+1_pInt)
prm%nonSchmid_neg = lattice_nonSchmidMatrix(prm%Nslip,prm%nonSchmidCoeff,-1_pInt)
else
prm%nonSchmid_pos = prm%Schmid_slip
prm%nonSchmid_neg = prm%Schmid_slip
endif
prm%gdot0_slip = config_phase(p)%getFloat('gdot0_slip')
prm%n_slip = config_phase(p)%getFloat('n_slip')
prm%a_slip = config_phase(p)%getFloat('a_slip')
prm%h0_SlipSlip = config_phase(p)%getFloat('h0_slipslip')
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! sanity checks for slip related parameters
if (any(prm%xi_slip_0 < 0.0_pReal .and. prm%Nslip > 0_pInt)) &
extmsg = trim(extmsg)//"xi_slip_0 "
if (any(prm%xi_slip_sat < prm%xi_slip_0 .and. prm%Nslip > 0_pInt)) &
extmsg = trim(extmsg)//"xi_slip_sat "
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if (prm%gdot0_slip <= 0.0_pReal) extmsg = trim(extmsg)//"gdot0_slip "
if (dEq0(prm%a_slip)) extmsg = trim(extmsg)//"a_slip " ! ToDo: negative values ok?
if (dEq0(prm%n_slip)) extmsg = trim(extmsg)//"n_slip " ! ToDo: negative values ok?
! expand slip related parameters from system => family
prm%xi_slip_0 = math_expand(prm%xi_slip_0,prm%Nslip)
prm%xi_slip_sat = math_expand(prm%xi_slip_sat,prm%Nslip)
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prm%H_int = math_expand(prm%H_int,prm%Nslip)
else slipActive
allocate(prm%interaction_SlipSlip(0,0))
allocate(prm%xi_slip_0(0))
endif slipActive
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prm%Ntwin = config_phase(p)%getInts('ntwin', defaultVal=emptyIntArray)
prm%totalNtwin = sum(prm%Ntwin)
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if (size(prm%Ntwin) > count(lattice_NtwinSystem(:,p) > 0_pInt)) &
call IO_error(150_pInt,ext_msg='Ntwin')
if (any(lattice_NtwinSystem(1:size(prm%Ntwin),p)-prm%Ntwin < 0_pInt)) &
call IO_error(150_pInt,ext_msg='Ntwin')
twinActive: if (prm%totalNtwin > 0_pInt) then
prm%Schmid_twin = lattice_SchmidMatrix_twin(prm%Ntwin,structure(1:3),&
config_phase(p)%getFloat('c/a',defaultVal=0.0_pReal))
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! reading in twin related parameters
prm%xi_twin_0 = config_phase(p)%getFloats('tau0_twin',requiredShape=shape(prm%Ntwin))
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prm%interaction_TwinTwin = lattice_interaction_TwinTwin(prm%Ntwin,config_phase(p)%getFloats('interaction_twintwin'), &
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structure(1:3))
prm%gdot0_twin = config_phase(p)%getFloat('gdot0_twin')
prm%n_twin = config_phase(p)%getFloat('n_twin')
prm%spr = config_phase(p)%getFloat('s_pr')
prm%h0_TwinTwin = config_phase(p)%getFloat('h0_twintwin')
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! sanity checks for twin related parameters
if (any(prm%xi_twin_0 < 0.0_pReal .and. prm%Ntwin > 0_pInt)) &
extmsg = trim(extmsg)//"xi_twin_0 "
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if (prm%gdot0_twin <= 0.0_pReal) extmsg = trim(extmsg)//"gdot0_twin "
if (dEq0(prm%n_twin)) extmsg = trim(extmsg)//"n_twin " ! ToDo: negative values ok?
! expand slip related parameters from system => family
prm%xi_twin_0 = math_expand(prm%xi_twin_0,prm%Ntwin)
else twinActive
allocate(prm%interaction_TwinTwin(0,0))
allocate(prm%xi_twin_0(0))
endif twinActive
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prm%gamma_twin_char = lattice_characteristicShear_twin(prm%Ntwin,structure(1:3),&
config_phase(p)%getFloat('c/a',defaultVal=0.0_pReal))
slipAndTwinActive: if (prm%totalNslip > 0_pInt .and. prm%totalNtwin > 0_pInt) then
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prm%interaction_SlipTwin = lattice_interaction_SlipTwin(prm%Nslip,prm%Ntwin,&
config_phase(p)%getFloats('interaction_sliptwin'), &
structure(1:3))
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prm%interaction_TwinSlip = lattice_interaction_TwinSlip(prm%Ntwin,prm%Nslip,&
config_phase(p)%getFloats('interaction_twinslip'), &
structure(1:3))
else slipAndTwinActive
allocate(prm%interaction_SlipTwin(prm%totalNslip,prm%TotalNtwin)) ! at least one dimension 0
allocate(prm%interaction_TwinSlip(prm%totalNtwin,prm%TotalNslip)) ! at least one dimension 0
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prm%h0_TwinSlip = 0.0_pReal
endif slipAndTwinActive
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! optional parameters that should be defined
prm%twinB = config_phase(p)%getFloat('twin_b',defaultVal=1.0_pReal)
prm%twinC = config_phase(p)%getFloat('twin_c',defaultVal=0.0_pReal)
prm%twinD = config_phase(p)%getFloat('twin_d',defaultVal=0.0_pReal)
prm%twinE = config_phase(p)%getFloat('twin_e',defaultVal=0.0_pReal)
prm%aTolResistance = config_phase(p)%getFloat('atol_resistance',defaultVal=1.0_pReal)
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prm%aTolShear = config_phase(p)%getFloat('atol_shear', defaultVal=1.0e-6_pReal)
prm%aTolTwinfrac = config_phase(p)%getFloat('atol_twinfrac', defaultVal=1.0e-6_pReal)
if (prm%aTolResistance <= 0.0_pReal) extmsg = trim(extmsg)//"aTolresistance "
if (prm%aTolShear <= 0.0_pReal) extmsg = trim(extmsg)//"aTolShear "
if (prm%aTolTwinfrac <= 0.0_pReal) extmsg = trim(extmsg)//"atoltwinfrac "
if (extmsg /= '') call IO_error(211_pInt,ip=instance,&
ext_msg=trim(extmsg)//'('//PLASTICITY_PHENOPOWERLAW_label//')')
outputs = config_phase(p)%getStrings('(output)',defaultVal=emptyStringArray)
allocate(prm%outputID(0))
do i=1_pInt, size(outputs)
outputID = undefined_ID
select case(outputs(i))
case ('resistance_slip')
outputID = merge(resistance_slip_ID,undefined_ID,prm%totalNslip>0_pInt)
outputSize = prm%totalNslip
case ('accumulatedshear_slip')
outputID = merge(accumulatedshear_slip_ID,undefined_ID,prm%totalNslip>0_pInt)
outputSize = prm%totalNslip
case ('shearrate_slip')
outputID = merge(shearrate_slip_ID,undefined_ID,prm%totalNslip>0_pInt)
outputSize = prm%totalNslip
case ('resolvedstress_slip')
outputID = merge(resolvedstress_slip_ID,undefined_ID,prm%totalNslip>0_pInt)
outputSize = prm%totalNslip
case ('resistance_twin')
outputID = merge(resistance_twin_ID,undefined_ID,prm%totalNtwin>0_pInt)
outputSize = prm%totalNtwin
case ('accumulatedshear_twin')
outputID = merge(accumulatedshear_twin_ID,undefined_ID,prm%totalNtwin>0_pInt)
outputSize = prm%totalNtwin
case ('shearrate_twin')
outputID = merge(shearrate_twin_ID,undefined_ID,prm%totalNtwin>0_pInt)
outputSize = prm%totalNtwin
case ('resolvedstress_twin')
outputID = merge(resolvedstress_twin_ID,undefined_ID,prm%totalNtwin>0_pInt)
outputSize = prm%totalNtwin
case ('totalshear')
outputID = merge(totalshear_ID,undefined_ID,prm%totalNslip>0_pInt)
outputSize = 1_pInt
case ('totalvolfrac_twin')
outputID = merge(totalvolfrac_twin_ID,undefined_ID,prm%totalNtwin>0_pInt)
outputSize = 1_pInt
end select
if (outputID /= undefined_ID) then
plastic_phenopowerlaw_output(i,instance) = outputs(i)
plastic_phenopowerlaw_sizePostResult(i,instance) = outputSize
prm%outputID = [prm%outputID , outputID]
endif
end do
!--------------------------------------------------------------------------------------------------
! allocate state arrays
NipcMyPhase = count(material_phase == p) ! number of IPCs containing my phase
sizeState = size(['tau_slip ','gamma_slip']) * prm%TotalNslip &
+ size(['tau_twin ','gamma_twin']) * prm%TotalNtwin &
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+ size(['sum(gamma)','sum(f) '])
!--------------------------------------------------------------------------------------------------
! ToDo: This could be done by a function (in constitutive?)
sizeDotState = sizeState
plasticState(p)%sizeState = sizeState
plasticState(p)%sizeDotState = sizeDotState
plasticState(p)%sizePostResults = sum(plastic_phenopowerlaw_sizePostResult(:,instance))
plasticState(p)%nSlip = prm%totalNslip
plasticState(p)%nTwin = prm%totalNtwin
allocate(plasticState(p)%aTolState ( sizeState), source=0.0_pReal)
allocate(plasticState(p)%state0 ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(p)%partionedState0 ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(p)%subState0 ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(p)%state ( sizeState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(p)%dotState (sizeDotState,NipcMyPhase), source=0.0_pReal)
allocate(plasticState(p)%deltaState (0_pInt,NipcMyPhase), source=0.0_pReal)
if (any(numerics_integrator == 1_pInt)) then
allocate(plasticState(p)%previousDotState (sizeDotState,NipcMyPhase),source=0.0_pReal)
allocate(plasticState(p)%previousDotState2(sizeDotState,NipcMyPhase),source=0.0_pReal)
endif
if (any(numerics_integrator == 4_pInt)) &
allocate(plasticState(p)%RK4dotState (sizeDotState,NipcMyPhase), source=0.0_pReal)
if (any(numerics_integrator == 5_pInt)) &
allocate(plasticState(p)%RKCK45dotState (6,sizeDotState,NipcMyPhase), source=0.0_pReal)
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!--------------------------------------------------------------------------------------------------
! locally defined state aliases and initialization of state0 and aTolState
startIndex = 1_pInt
endIndex = prm%totalNslip
stt%xi_slip => plasticState(p)%state (startIndex:endIndex,:)
stt%xi_slip = spread(prm%xi_slip_0, 2, NipcMyPhase)
dot%xi_slip => plasticState(p)%dotState(startIndex:endIndex,:)
plasticState(p)%aTolState(startIndex:endIndex) = prm%aTolResistance
startIndex = endIndex + 1_pInt
endIndex = endIndex + prm%totalNtwin
stt%xi_twin => plasticState(p)%state (startIndex:endIndex,:)
stt%xi_twin = spread(prm%xi_twin_0, 2, NipcMyPhase)
dot%xi_twin => plasticState(p)%dotState(startIndex:endIndex,:)
plasticState(p)%aTolState(startIndex:endIndex) = prm%aTolResistance
startIndex = endIndex + 1_pInt
endIndex = endIndex + 1_pInt
stt%sumGamma => plasticState(p)%state (startIndex,:)
dot%sumGamma => plasticState(p)%dotState(startIndex,:)
plasticState(p)%aTolState(startIndex:endIndex) = prm%aTolShear
startIndex = endIndex + 1_pInt
endIndex = endIndex + 1_pInt
stt%sumF=>plasticState(p)%state (startIndex,:)
dot%sumF=>plasticState(p)%dotState(startIndex,:)
plasticState(p)%aTolState(startIndex:endIndex) = prm%aTolTwinFrac
startIndex = endIndex + 1_pInt
endIndex = endIndex + prm%totalNslip
stt%gamma_slip => plasticState(p)%state (startIndex:endIndex,:)
dot%gamma_slip => plasticState(p)%dotState(startIndex:endIndex,:)
plasticState(p)%aTolState(startIndex:endIndex) = prm%aTolShear
! global alias
plasticState(p)%slipRate => plasticState(p)%dotState(startIndex:endIndex,:)
plasticState(p)%accumulatedSlip => plasticState(p)%state(startIndex:endIndex,:)
startIndex = endIndex + 1_pInt
endIndex = endIndex + prm%totalNtwin
stt%gamma_twin => plasticState(p)%state (startIndex:endIndex,:)
dot%gamma_twin => plasticState(p)%dotState(startIndex:endIndex,:)
plasticState(p)%aTolState(startIndex:endIndex) = prm%aTolShear
plasticState(p)%state0 = plasticState(p)%state
dot%whole => plasticState(p)%dotState
end associate
enddo
end subroutine plastic_phenopowerlaw_init
!--------------------------------------------------------------------------------------------------
!> @brief calculates plastic velocity gradient and its tangent
!--------------------------------------------------------------------------------------------------
subroutine plastic_phenopowerlaw_LpAndItsTangent(Lp,dLp_dMp,Mp,instance,of)
implicit none
real(pReal), dimension(3,3), intent(out) :: &
Lp !< plastic velocity gradient
real(pReal), dimension(3,3,3,3), intent(out) :: &
dLp_dMp !< derivative of Lp with respect to the Mandel stress
real(pReal), dimension(3,3), intent(in) :: &
Mp !< Mandel stress
integer(pInt), intent(in) :: &
instance, &
of
integer(pInt) :: &
i,k,l,m,n
real(pReal), dimension(param(instance)%totalNslip) :: &
dgdot_dtauslip_pos,dgdot_dtauslip_neg, &
gdot_slip_pos,gdot_slip_neg
real(pReal), dimension(param(instance)%totalNtwin) :: &
gdot_twin,dgdot_dtautwin
type(tParameters) :: prm
type(tPhenopowerlawState) :: stt
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associate(prm => param(instance), stt => state(instance))
Lp = 0.0_pReal
dLp_dMp = 0.0_pReal
call kinetics_slip(prm,stt,of,Mp,gdot_slip_pos,gdot_slip_neg,dgdot_dtauslip_pos,dgdot_dtauslip_neg)
slipSystems: do i = 1_pInt, prm%totalNslip
Lp = Lp + (1.0_pReal-stt%sumF(of))*(gdot_slip_pos(i)+gdot_slip_neg(i))*prm%Schmid_slip(1:3,1:3,i)
forall (k=1_pInt:3_pInt,l=1_pInt:3_pInt,m=1_pInt:3_pInt,n=1_pInt:3_pInt) &
dLp_dMp(k,l,m,n) = dLp_dMp(k,l,m,n) &
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+ dgdot_dtauslip_pos(i) * prm%Schmid_slip(k,l,i) * prm%nonSchmid_pos(m,n,i) &
+ dgdot_dtauslip_neg(i) * prm%Schmid_slip(k,l,i) * prm%nonSchmid_neg(m,n,i)
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enddo slipSystems
call kinetics_twin(prm,stt,of,Mp,gdot_twin,dgdot_dtautwin)
twinSystems: do i = 1_pInt, prm%totalNtwin
Lp = Lp + gdot_twin(i)*prm%Schmid_twin(1:3,1:3,i)
forall (k=1_pInt:3_pInt,l=1_pInt:3_pInt,m=1_pInt:3_pInt,n=1_pInt:3_pInt) &
dLp_dMp(k,l,m,n) = dLp_dMp(k,l,m,n) &
+ dgdot_dtautwin(i)*prm%Schmid_twin(k,l,i)*prm%Schmid_twin(m,n,i)
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enddo twinSystems
end associate
end subroutine plastic_phenopowerlaw_LpAndItsTangent
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!--------------------------------------------------------------------------------------------------
!> @brief calculates the rate of change of microstructure
!--------------------------------------------------------------------------------------------------
subroutine plastic_phenopowerlaw_dotState(Mp,instance,of)
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implicit none
real(pReal), dimension(3,3), intent(in) :: &
Mp !< Mandel stress
integer(pInt), intent(in) :: &
instance, &
of
integer(pInt) :: &
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i
real(pReal) :: &
c_SlipSlip,c_TwinSlip,c_TwinTwin, &
xi_slip_sat_offset
real(pReal), dimension(param(instance)%totalNslip) :: &
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left_SlipSlip,right_SlipSlip, &
gdot_slip_pos,gdot_slip_neg
type(tParameters) :: prm
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type(tPhenopowerlawState) :: dot,stt
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associate(prm => param(instance), stt => state(instance), dot => dotState(instance))
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dot%whole(:,of) = 0.0_pReal
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!--------------------------------------------------------------------------------------------------
! system-independent (nonlinear) prefactors to M_Xx (X influenced by x) matrices
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c_SlipSlip = prm%h0_slipslip * (1.0_pReal + prm%twinC*stt%sumF(of)** prm%twinB)
c_TwinSlip = prm%h0_TwinSlip * stt%sumGamma(of)**prm%twinE
c_TwinTwin = prm%h0_TwinTwin * stt%sumF(of)**prm%twinD
!--------------------------------------------------------------------------------------------------
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! calculate left and right vectors
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left_SlipSlip = 1.0_pReal + prm%H_int
xi_slip_sat_offset = prm%spr*sqrt(stt%sumF(of))
right_SlipSlip = abs(1.0_pReal-stt%xi_slip(:,of) / (prm%xi_slip_sat+xi_slip_sat_offset)) **prm%a_slip &
* sign(1.0_pReal,1.0_pReal-stt%xi_slip(:,of) / (prm%xi_slip_sat+xi_slip_sat_offset))
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!--------------------------------------------------------------------------------------------------
! shear rates
call kinetics_slip(prm,stt,of,Mp,gdot_slip_pos,gdot_slip_neg)
dot%gamma_slip(:,of) = abs(gdot_slip_pos+gdot_slip_neg)
dot%sumGamma(of) = sum(dot%gamma_slip(:,of))
call kinetics_twin(prm,stt,of,Mp,dot%gamma_twin(:,of))
if (stt%sumF(of) < 0.98_pReal) dot%sumF(of) = sum(dot%gamma_twin(:,of)/prm%gamma_twin_char)
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!--------------------------------------------------------------------------------------------------
! hardening
hardeningSlip: do i = 1_pInt, prm%totalNslip
dot%xi_slip(i,of) = &
c_SlipSlip * left_SlipSlip(i) &
* dot_product(prm%interaction_SlipSlip(i,:),right_SlipSlip*dot%gamma_slip(:,of)) &
+ &
dot_product(prm%interaction_SlipTwin(i,:),dot%gamma_twin(:,of))
enddo hardeningSlip
hardeningTwin: do i = 1_pInt, prm%totalNtwin
dot%xi_twin(i,of) = &
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c_TwinSlip &
* dot_product(prm%interaction_TwinSlip(i,:),dot%gamma_slip(:,of)) &
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+ &
c_TwinTwin &
* dot_product(prm%interaction_TwinTwin(i,:),dot%gamma_twin(:,of))
enddo hardeningTwin
end associate
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end subroutine plastic_phenopowerlaw_dotState
!--------------------------------------------------------------------------------------------------
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!> @brief calculates shear rates on slip systems and derivatives with respect to resolved stress
!> @details: Shear rates are calculated only optionally. NOTE: Agains the common convention, the
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!> result (i.e. intent(out)) variables are the last to have the optional arguments at the end
!--------------------------------------------------------------------------------------------------
pure subroutine kinetics_slip(prm,stt,of,Mp,gdot_slip_pos,gdot_slip_neg, &
dgdot_dtau_slip_pos,dgdot_dtau_slip_neg)
use prec, only: &
dNeq0
use math, only: &
math_mul33xx33
implicit none
type(tParameters), intent(in) :: &
prm
type(tPhenopowerlawState), intent(in) :: &
stt
integer(pInt), intent(in) :: &
of
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real(pReal), dimension(prm%totalNslip), intent(out) :: &
gdot_slip_pos, &
gdot_slip_neg
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real(pReal), dimension(prm%totalNslip), optional, intent(out) :: &
dgdot_dtau_slip_pos, &
dgdot_dtau_slip_neg
real(pReal), dimension(3,3), intent(in) :: &
Mp
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real(pReal), dimension(prm%totalNslip) :: &
tau_slip_pos, &
tau_slip_neg
integer(pInt) :: i
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do i = 1_pInt, prm%totalNslip
tau_slip_pos(i) = math_mul33xx33(Mp,prm%nonSchmid_pos(1:3,1:3,i))
tau_slip_neg(i) = math_mul33xx33(Mp,prm%nonSchmid_neg(1:3,1:3,i))
enddo
gdot_slip_pos = 0.5_pReal*prm%gdot0_slip &
* sign(abs(tau_slip_pos/stt%xi_slip(:,of))**prm%n_slip, tau_slip_pos)
gdot_slip_neg = 0.5_pReal*prm%gdot0_slip &
* sign(abs(tau_slip_neg/stt%xi_slip(:,of))**prm%n_slip, tau_slip_neg)
if (present(dgdot_dtau_slip_pos)) then
where(dNeq0(tau_slip_pos))
dgdot_dtau_slip_pos = gdot_slip_pos*prm%n_slip/tau_slip_pos
else where
dgdot_dtau_slip_pos = 0.0_pReal
end where
endif
if (present(dgdot_dtau_slip_neg)) then
where(dNeq0(tau_slip_neg))
dgdot_dtau_slip_neg = gdot_slip_neg*prm%n_slip/tau_slip_neg
else where
dgdot_dtau_slip_neg = 0.0_pReal
end where
endif
end subroutine kinetics_slip
!--------------------------------------------------------------------------------------------------
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!> @brief calculates shear rates on twin systems and derivatives with respect to resolved stress
!> @details: Shear rates are calculated only optionally. NOTE: Agains the common convention, the
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!> result (i.e. intent(out)) variables are the last to have the optional arguments at the end
!--------------------------------------------------------------------------------------------------
pure subroutine kinetics_twin(prm,stt,of,Mp,gdot_twin,dgdot_dtau_twin)
use prec, only: &
dNeq0
use math, only: &
math_mul33xx33
implicit none
type(tParameters), intent(in) :: &
prm
type(tPhenopowerlawState), intent(in) :: &
stt
integer(pInt), intent(in) :: &
of
real(pReal), dimension(3,3), intent(in) :: &
Mp
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real(pReal), dimension(prm%totalNtwin), intent(out) :: &
gdot_twin
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real(pReal), dimension(prm%totalNtwin), optional, intent(out) :: &
dgdot_dtau_twin
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real(pReal), dimension(prm%totalNtwin) :: &
tau_twin
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integer(pInt) :: i
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do i = 1_pInt, prm%totalNtwin
tau_twin(i) = math_mul33xx33(Mp,prm%Schmid_twin(1:3,1:3,i))
enddo
gdot_twin = merge((1.0_pReal-stt%sumF(of))*prm%gdot0_twin*(abs(tau_twin)/stt%xi_twin(:,of))**prm%n_twin, &
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0.0_pReal, tau_twin>0.0_pReal)
if (present(dgdot_dtau_twin)) then
where(dNeq0(tau_twin))
dgdot_dtau_twin = gdot_twin*prm%n_twin/tau_twin
else where
dgdot_dtau_twin = 0.0_pReal
end where
endif
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end subroutine kinetics_twin
!--------------------------------------------------------------------------------------------------
!> @brief return array of constitutive results
!--------------------------------------------------------------------------------------------------
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function plastic_phenopowerlaw_postResults(Mp,instance,of) result(postResults)
use material, only: &
material_phase, &
plasticState, &
phasememberAt, &
phase_plasticityInstance
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use math, only: &
math_mul33xx33, &
math_Mandel6to33
implicit none
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real(pReal), dimension(3,3), intent(in) :: &
Mp !< Mandel stress
integer(pInt), intent(in) :: &
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instance, &
of
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real(pReal), dimension(sum(plastic_phenopowerlaw_sizePostResult(:,instance))) :: &
postResults
integer(pInt) :: &
o,c,i,j
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real(pReal), dimension(param(instance)%totalNslip) :: &
gdot_slip_pos,gdot_slip_neg
type(tParameters) :: prm
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type(tPhenopowerlawState) :: stt
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associate( prm => param(instance), stt => state(instance))
postResults = 0.0_pReal
c = 0_pInt
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outputsLoop: do o = 1_pInt,size(prm%outputID)
select case(prm%outputID(o))
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case (resistance_slip_ID)
postResults(c+1_pInt:c+prm%totalNslip) = stt%xi_slip(1:prm%totalNslip,of)
c = c + prm%totalNslip
case (accumulatedshear_slip_ID)
postResults(c+1_pInt:c+prm%totalNslip) = stt%gamma_slip(1:prm%totalNslip,of)
c = c + prm%totalNslip
case (shearrate_slip_ID)
call kinetics_slip(prm,stt,of,Mp,gdot_slip_pos,gdot_slip_neg)
postResults(c+1_pInt:c+prm%totalNslip) = gdot_slip_pos+gdot_slip_neg
c = c + prm%totalNslip
case (resolvedstress_slip_ID)
do i = 1_pInt, prm%totalNslip
postResults(c+i) = math_mul33xx33(Mp,prm%Schmid_slip(1:3,1:3,i))
enddo
c = c + prm%totalNslip
case (resistance_twin_ID)
postResults(c+1_pInt:c+prm%totalNtwin) = stt%xi_twin(1:prm%totalNtwin,of)
c = c + prm%totalNtwin
case (accumulatedshear_twin_ID)
postResults(c+1_pInt:c+prm%totalNtwin) = stt%gamma_twin(1:prm%totalNtwin,of)
c = c + prm%totalNtwin
case (shearrate_twin_ID)
call kinetics_twin(prm,stt,of,Mp,postResults(c+1_pInt:c+prm%totalNtwin))
c = c + prm%totalNtwin
case (resolvedstress_twin_ID)
do i = 1_pInt, prm%totalNtwin
postResults(c+i) = math_mul33xx33(Mp,prm%Schmid_twin(1:3,1:3,i))
enddo
c = c + prm%totalNtwin
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case (totalshear_ID)
postResults(c+1_pInt) = stt%sumGamma(of)
c = c + 1_pInt
case (totalvolfrac_twin_ID)
postResults(c+1_pInt) = stt%sumF(of)
c = c + 1_pInt
end select
enddo outputsLoop
end associate
end function plastic_phenopowerlaw_postResults
end module plastic_phenopowerlaw