following example of disloUCLA
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@ -365,7 +365,7 @@ subroutine constitutive_microstructure(orientations, Fe, Fp, ipc, ip, el)
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use plastic_nonlocal, only: &
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use plastic_nonlocal, only: &
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plastic_nonlocal_microstructure
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plastic_nonlocal_microstructure
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use plastic_dislotwin, only: &
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use plastic_dislotwin, only: &
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plastic_dislotwin_microstructure
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plastic_dislotwin_dependentState
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use plastic_disloUCLA, only: &
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use plastic_disloUCLA, only: &
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plastic_disloUCLA_dependentState
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plastic_disloUCLA_dependentState
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@ -389,7 +389,9 @@ subroutine constitutive_microstructure(orientations, Fe, Fp, ipc, ip, el)
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plasticityType: select case (phase_plasticity(material_phase(ipc,ip,el)))
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plasticityType: select case (phase_plasticity(material_phase(ipc,ip,el)))
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case (PLASTICITY_DISLOTWIN_ID) plasticityType
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case (PLASTICITY_DISLOTWIN_ID) plasticityType
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call plastic_dislotwin_microstructure(temperature(ho)%p(tme),ipc,ip,el)
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of = phasememberAt(ipc,ip,el)
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instance = phase_plasticityInstance(material_phase(ipc,ip,el))
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call plastic_dislotwin_dependentState(temperature(ho)%p(tme),instance,of)
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case (PLASTICITY_DISLOUCLA_ID) plasticityType
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case (PLASTICITY_DISLOUCLA_ID) plasticityType
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of = phasememberAt(ipc,ip,el)
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of = phasememberAt(ipc,ip,el)
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instance = phase_plasticityInstance(material_phase(ipc,ip,el))
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instance = phase_plasticityInstance(material_phase(ipc,ip,el))
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@ -177,7 +177,7 @@ module plastic_dislotwin
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public :: &
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public :: &
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plastic_dislotwin_init, &
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plastic_dislotwin_init, &
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plastic_dislotwin_homogenizedC, &
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plastic_dislotwin_homogenizedC, &
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plastic_dislotwin_microstructure, &
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plastic_dislotwin_dependentState, &
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plastic_dislotwin_LpAndItsTangent, &
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plastic_dislotwin_LpAndItsTangent, &
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plastic_dislotwin_dotState, &
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plastic_dislotwin_dotState, &
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plastic_dislotwin_postResults
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plastic_dislotwin_postResults
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@ -230,7 +230,7 @@ subroutine plastic_dislotwin_init
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implicit none
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implicit none
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integer(pInt) :: Ninstance,&
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integer(pInt) :: Ninstance,&
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f,j,i,k,o,p, &
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i,p, &
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offset_slip, &
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offset_slip, &
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startIndex, endIndex, outputSize
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startIndex, endIndex, outputSize
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integer(pInt) :: sizeState, sizeDotState
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integer(pInt) :: sizeState, sizeDotState
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@ -245,7 +245,6 @@ subroutine plastic_dislotwin_init
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outputID !< ID of each post result output
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outputID !< ID of each post result output
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character(len=pStringLen) :: &
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character(len=pStringLen) :: &
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structure = '',&
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extmsg = ''
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extmsg = ''
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character(len=65536), dimension(:), allocatable :: &
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character(len=65536), dimension(:), allocatable :: &
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outputs
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outputs
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@ -289,8 +288,6 @@ subroutine plastic_dislotwin_init
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prm%nu = lattice_nu(p)
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prm%nu = lattice_nu(p)
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prm%C66 = lattice_C66(1:6,1:6,p)
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prm%C66 = lattice_C66(1:6,1:6,p)
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structure = config%getString('lattice_structure')
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!--------------------------------------------------------------------------------------------------
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!--------------------------------------------------------------------------------------------------
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! slip related parameters
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! slip related parameters
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@ -310,7 +307,7 @@ subroutine plastic_dislotwin_init
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prm%interaction_SlipSlip = lattice_interaction_SlipSlip(prm%Nslip, &
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prm%interaction_SlipSlip = lattice_interaction_SlipSlip(prm%Nslip, &
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config%getFloats('interaction_slipslip'), &
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config%getFloats('interaction_slipslip'), &
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structure(1:3))
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config%getString('lattice_structure'))
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prm%rho0 = config%getFloats('rhoedge0', requiredSize=size(prm%Nslip)) !ToDo: rename to rho_0
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prm%rho0 = config%getFloats('rhoedge0', requiredSize=size(prm%Nslip)) !ToDo: rename to rho_0
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prm%rhoDip0 = config%getFloats('rhoedgedip0',requiredSize=size(prm%Nslip)) !ToDo: rename to rho_dip_0
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prm%rhoDip0 = config%getFloats('rhoedgedip0',requiredSize=size(prm%Nslip)) !ToDo: rename to rho_dip_0
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@ -451,17 +448,17 @@ subroutine plastic_dislotwin_init
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if (prm%totalNslip > 0_pInt .and. prm%totalNtwin > 0_pInt) then
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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,&
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prm%interaction_SlipTwin = lattice_interaction_SlipTwin(prm%Nslip,prm%Ntwin,&
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config%getFloats('interaction_sliptwin'), &
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config%getFloats('interaction_sliptwin'), &
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structure(1:3))
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config%getString('lattice_structure'))
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prm%interaction_TwinSlip = lattice_interaction_TwinSlip(prm%Ntwin,prm%Nslip,&
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prm%interaction_TwinSlip = lattice_interaction_TwinSlip(prm%Ntwin,prm%Nslip,&
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config%getFloats('interaction_twinslip'), &
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config%getFloats('interaction_twinslip'), &
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structure(1:3))
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config%getString('lattice_structure'))
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if (prm%fccTwinTransNucleation .and. prm%totalNtwin > 12_pInt) write(6,*) 'mist' ! ToDo: implement better test. The model will fail also if ntwin is [6,6]
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if (prm%fccTwinTransNucleation .and. prm%totalNtwin > 12_pInt) write(6,*) 'mist' ! ToDo: implement better test. The model will fail also if ntwin is [6,6]
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endif
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endif
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if (prm%totalNslip > 0_pInt .and. prm%totalNtrans > 0_pInt) then
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if (prm%totalNslip > 0_pInt .and. prm%totalNtrans > 0_pInt) then
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prm%interaction_SlipTrans = lattice_interaction_SlipTrans(prm%Nslip,prm%Ntrans,&
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prm%interaction_SlipTrans = lattice_interaction_SlipTrans(prm%Nslip,prm%Ntrans,&
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config%getFloats('interaction_sliptrans'), &
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config%getFloats('interaction_sliptrans'), &
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structure(1:3))
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config%getString('lattice_structure'))
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if (prm%fccTwinTransNucleation .and. prm%totalNtrans > 12_pInt) write(6,*) 'mist' ! ToDo: implement better test. The model will fail also if ntrans is [6,6]
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if (prm%fccTwinTransNucleation .and. prm%totalNtrans > 12_pInt) write(6,*) 'mist' ! ToDo: implement better test. The model will fail also if ntrans is [6,6]
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endif
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endif
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@ -735,133 +732,6 @@ function plastic_dislotwin_homogenizedC(ipc,ip,el)
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end function plastic_dislotwin_homogenizedC
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end function plastic_dislotwin_homogenizedC
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates derived quantities from state
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!--------------------------------------------------------------------------------------------------
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subroutine plastic_dislotwin_microstructure(temperature,ipc,ip,el)
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use math, only: &
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PI
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use material, only: &
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material_phase, &
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phase_plasticityInstance, &
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phasememberAt
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implicit none
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integer(pInt), intent(in) :: &
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ipc, & !< component-ID of integration point
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ip, & !< integration point
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el !< element
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real(pReal), intent(in) :: &
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temperature !< temperature at IP
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integer(pInt) :: &
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i, &
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of
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real(pReal) :: &
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sumf_twin,SFE,sumf_trans
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real(pReal), dimension(:), allocatable :: &
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x0, &
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fOverStacksize, &
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ftransOverLamellarSize
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of = phasememberAt(ipc,ip,el)
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associate(prm => param(phase_plasticityInstance(material_phase(ipc,ip,el))),&
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stt => state(phase_plasticityInstance(material_phase(ipc,ip,el))),&
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mse => microstructure(phase_plasticityInstance(material_phase(ipc,ip,el))))
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sumf_twin = sum(stt%twinFraction(1:prm%totalNtwin,of))
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sumf_trans = sum(stt%stressTransFraction(1:prm%totalNtrans,of)) &
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+ sum(stt%strainTransFraction(1:prm%totalNtrans,of))
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sfe = prm%SFE_0K + prm%dSFE_dT * Temperature
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!* rescaled volume fraction for topology
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fOverStacksize = stt%twinFraction(1_pInt:prm%totalNtwin,of)/prm%twinsize !ToDo: this is per system
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ftransOverLamellarSize = sumf_trans/prm%lamellarsizePerTransSystem !ToDo: But this not ...
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!Todo: Physically ok, but naming could be adjusted
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!* 1/mean free distance between 2 forest dislocations seen by a moving dislocation
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forall (i = 1_pInt:prm%totalNslip) &
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mse%invLambdaSlip(i,of) = &
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sqrt(dot_product((stt%rhoEdge(1_pInt:prm%totalNslip,of)+stt%rhoEdgeDip(1_pInt:prm%totalNslip,of)),&
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prm%forestProjection(1:prm%totalNslip,i)))/prm%CLambdaSlip(i)
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!* 1/mean free distance between 2 twin stacks from different systems seen by a moving dislocation
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!$OMP CRITICAL (evilmatmul)
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if (prm%totalNtwin > 0_pInt .and. prm%totalNslip > 0_pInt) &
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mse%invLambdaSlipTwin(1_pInt:prm%totalNslip,of) = &
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matmul(prm%interaction_SlipTwin,fOverStacksize)/(1.0_pReal-sumf_twin)
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!* 1/mean free distance between 2 twin stacks from different systems seen by a growing twin
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!ToDo: needed? if (prm%totalNtwin > 0_pInt) &
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mse%invLambdaTwin(1_pInt:prm%totalNtwin,of) = &
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matmul(prm%interaction_TwinTwin,fOverStacksize)/(1.0_pReal-sumf_twin)
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!* 1/mean free distance between 2 martensite lamellar from different systems seen by a moving dislocation
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if (prm%totalNtrans > 0_pInt .and. prm%totalNslip > 0_pInt) &
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mse%invLambdaSlipTrans(1_pInt:prm%totalNslip,of) = & ! ToDo: does not work if Ntrans is not 12
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matmul(prm%interaction_SlipTrans,ftransOverLamellarSize)/(1.0_pReal-sumf_trans)
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!* 1/mean free distance between 2 martensite stacks from different systems seen by a growing martensite (1/lambda_trans)
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!ToDo: needed? if (prm%totalNtrans > 0_pInt) &
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mse%invLambdaTrans(1_pInt:prm%totalNtrans,of) = &
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matmul(prm%interaction_TransTrans,ftransOverLamellarSize)/(1.0_pReal-sumf_trans)
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!$OMP END CRITICAL (evilmatmul)
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!* mean free path between 2 obstacles seen by a moving dislocation
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do i = 1_pInt,prm%totalNslip
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if ((prm%totalNtwin > 0_pInt) .or. (prm%totalNtrans > 0_pInt)) then ! ToDo: This is too simplified
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mse%mfp_slip(i,of) = &
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prm%GrainSize/(1.0_pReal+prm%GrainSize*&
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(mse%invLambdaSlip(i,of) + mse%invLambdaSlipTwin(i,of) + mse%invLambdaSlipTrans(i,of)))
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else
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mse%mfp_slip(i,of) = &
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prm%GrainSize/&
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(1.0_pReal+prm%GrainSize*(mse%invLambdaSlip(i,of))) !!!!!! correct?
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endif
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enddo
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!* mean free path between 2 obstacles seen by a growing twin/martensite
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mse%mfp_twin(:,of) = prm%Cmfptwin*prm%GrainSize/ (1.0_pReal+prm%GrainSize*mse%invLambdaTwin(:,of))
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mse%mfp_trans(:,of) = prm%Cmfptrans*prm%GrainSize/(1.0_pReal+prm%GrainSize*mse%invLambdaTrans(:,of))
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!* threshold stress for dislocation motion
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forall (i = 1_pInt:prm%totalNslip) mse%threshold_stress_slip(i,of) = &
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prm%mu*prm%burgers_slip(i)*&
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sqrt(dot_product(stt%rhoEdge(1_pInt:prm%totalNslip,of)+stt%rhoEdgeDip(1_pInt:prm%totalNslip,of),&
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prm%interaction_SlipSlip(i,1:prm%totalNslip)))
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!* threshold stress for growing twin/martensite
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if(prm%totalNtwin == prm%totalNslip) &
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mse%threshold_stress_twin(:,of) = prm%Cthresholdtwin* &
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(sfe/(3.0_pReal*prm%burgers_twin)+ 3.0_pReal*prm%burgers_twin*prm%mu/ &
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(prm%L0_twin*prm%burgers_slip)) ! slip burgers here correct?
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if(prm%totalNtrans == prm%totalNslip) &
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mse%threshold_stress_trans(:,of) = prm%Cthresholdtrans* &
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(sfe/(3.0_pReal*prm%burgers_trans) + 3.0_pReal*prm%burgers_trans*prm%mu/&
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(prm%L0_trans*prm%burgers_slip) + prm%transStackHeight*prm%deltaG/ (3.0_pReal*prm%burgers_trans) )
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! final volume after growth
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mse%twinVolume(:,of) = (PI/4.0_pReal)*prm%twinsize*mse%mfp_twin(:,of)**2.0_pReal
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mse%martensiteVolume(:,of) = (PI/4.0_pReal)*prm%lamellarsizePerTransSystem*mse%mfp_trans(:,of)**2.0_pReal
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!* equilibrium separation of partial dislocations (twin)
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x0 = prm%mu*prm%burgers_twin**2.0_pReal/(sfe*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu)
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mse%tau_r_twin(:,of) = prm%mu*prm%burgers_twin/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_twin)+cos(pi/3.0_pReal)/x0)
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!* equilibrium separation of partial dislocations (trans)
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x0 = prm%mu*prm%burgers_trans**2.0_pReal/(sfe*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu)
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mse%tau_r_trans(:,of) = prm%mu*prm%burgers_trans/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_trans)+cos(pi/3.0_pReal)/x0)
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end associate
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end subroutine plastic_dislotwin_microstructure
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!--------------------------------------------------------------------------------------------------
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates plastic velocity gradient and its tangent
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!> @brief calculates plastic velocity gradient and its tangent
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!--------------------------------------------------------------------------------------------------
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!--------------------------------------------------------------------------------------------------
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@ -885,7 +755,7 @@ subroutine plastic_dislotwin_LpAndItsTangent(Lp,dLp_dMp,Mp,Temperature,instance,
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integer(pInt) :: i,k,l,m,n,s1,s2
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integer(pInt) :: i,k,l,m,n,s1,s2
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real(pReal) :: f_unrotated,StressRatio_p,&
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real(pReal) :: f_unrotated,StressRatio_p,&
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StressRatio_r,BoltzmannRatio,Ndot0_twin,stressRatio, &
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BoltzmannRatio, &
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Ndot0_trans,StressRatio_s, &
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Ndot0_trans,StressRatio_s, &
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dgdot_dtau, &
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dgdot_dtau, &
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tau
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tau
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@ -1039,9 +909,9 @@ subroutine plastic_dislotwin_dotState(Mp,Temperature,instance,of)
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of
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of
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integer(pInt) :: i,s1,s2
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integer(pInt) :: i,s1,s2
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real(pReal) :: f_unrotated,StressRatio_p,BoltzmannRatio,&
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real(pReal) :: f_unrotated,&
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EdgeDipMinDistance,AtomicVolume,VacancyDiffusion,StressRatio_r,Ndot0_twin,stressRatio,&
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EdgeDipMinDistance,AtomicVolume,VacancyDiffusion,Ndot0_twin,&
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Ndot0_trans,StressRatio_s,EdgeDipDistance, ClimbVelocity,DotRhoEdgeDipClimb,DotRhoEdgeDipAnnihilation, &
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Ndot0_trans,StressRatio_r,StressRatio_s,EdgeDipDistance, ClimbVelocity,DotRhoEdgeDipClimb,DotRhoEdgeDipAnnihilation, &
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DotRhoDipFormation,DotRhoMultiplication,DotRhoEdgeEdgeAnnihilation, &
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DotRhoDipFormation,DotRhoMultiplication,DotRhoEdgeEdgeAnnihilation, &
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tau
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tau
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real(pReal), dimension(plasticState(instance)%Nslip) :: &
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real(pReal), dimension(plasticState(instance)%Nslip) :: &
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@ -1165,6 +1035,126 @@ subroutine plastic_dislotwin_dotState(Mp,Temperature,instance,of)
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end subroutine plastic_dislotwin_dotState
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end subroutine plastic_dislotwin_dotState
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates derived quantities from state
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!--------------------------------------------------------------------------------------------------
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subroutine plastic_dislotwin_dependentState(temperature,instance,of)
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use math, only: &
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PI
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implicit none
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integer(pInt), intent(in) :: &
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instance, & !< component-ID of integration point
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of
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real(pReal), intent(in) :: &
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temperature !< temperature at IP
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integer(pInt) :: &
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i
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real(pReal) :: &
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||||||
|
sumf_twin,SFE,sumf_trans
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||||||
|
real(pReal), dimension(:), allocatable :: &
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||||||
|
x0, &
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||||||
|
fOverStacksize, &
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||||||
|
ftransOverLamellarSize
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||||||
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||||||
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||||||
|
associate(prm => param(instance),&
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||||||
|
stt => state(instance),&
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||||||
|
mse => microstructure(instance))
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||||||
|
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||||||
|
sumf_twin = sum(stt%twinFraction(1:prm%totalNtwin,of))
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||||||
|
sumf_trans = sum(stt%stressTransFraction(1:prm%totalNtrans,of)) &
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||||||
|
+ sum(stt%strainTransFraction(1:prm%totalNtrans,of))
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||||||
|
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||||||
|
sfe = prm%SFE_0K + prm%dSFE_dT * Temperature
|
||||||
|
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||||||
|
!* rescaled volume fraction for topology
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||||||
|
fOverStacksize = stt%twinFraction(1_pInt:prm%totalNtwin,of)/prm%twinsize !ToDo: this is per system
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||||||
|
ftransOverLamellarSize = sumf_trans/prm%lamellarsizePerTransSystem !ToDo: But this not ...
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||||||
|
!Todo: Physically ok, but naming could be adjusted
|
||||||
|
|
||||||
|
|
||||||
|
!* 1/mean free distance between 2 forest dislocations seen by a moving dislocation
|
||||||
|
forall (i = 1_pInt:prm%totalNslip) &
|
||||||
|
mse%invLambdaSlip(i,of) = &
|
||||||
|
sqrt(dot_product((stt%rhoEdge(1_pInt:prm%totalNslip,of)+stt%rhoEdgeDip(1_pInt:prm%totalNslip,of)),&
|
||||||
|
prm%forestProjection(1:prm%totalNslip,i)))/prm%CLambdaSlip(i)
|
||||||
|
|
||||||
|
!* 1/mean free distance between 2 twin stacks from different systems seen by a moving dislocation
|
||||||
|
!$OMP CRITICAL (evilmatmul)
|
||||||
|
if (prm%totalNtwin > 0_pInt .and. prm%totalNslip > 0_pInt) &
|
||||||
|
mse%invLambdaSlipTwin(1_pInt:prm%totalNslip,of) = &
|
||||||
|
matmul(prm%interaction_SlipTwin,fOverStacksize)/(1.0_pReal-sumf_twin)
|
||||||
|
|
||||||
|
!* 1/mean free distance between 2 twin stacks from different systems seen by a growing twin
|
||||||
|
|
||||||
|
!ToDo: needed? if (prm%totalNtwin > 0_pInt) &
|
||||||
|
mse%invLambdaTwin(1_pInt:prm%totalNtwin,of) = &
|
||||||
|
matmul(prm%interaction_TwinTwin,fOverStacksize)/(1.0_pReal-sumf_twin)
|
||||||
|
|
||||||
|
|
||||||
|
!* 1/mean free distance between 2 martensite lamellar from different systems seen by a moving dislocation
|
||||||
|
if (prm%totalNtrans > 0_pInt .and. prm%totalNslip > 0_pInt) &
|
||||||
|
mse%invLambdaSlipTrans(1_pInt:prm%totalNslip,of) = & ! ToDo: does not work if Ntrans is not 12
|
||||||
|
matmul(prm%interaction_SlipTrans,ftransOverLamellarSize)/(1.0_pReal-sumf_trans)
|
||||||
|
|
||||||
|
!* 1/mean free distance between 2 martensite stacks from different systems seen by a growing martensite (1/lambda_trans)
|
||||||
|
!ToDo: needed? if (prm%totalNtrans > 0_pInt) &
|
||||||
|
|
||||||
|
mse%invLambdaTrans(1_pInt:prm%totalNtrans,of) = &
|
||||||
|
matmul(prm%interaction_TransTrans,ftransOverLamellarSize)/(1.0_pReal-sumf_trans)
|
||||||
|
!$OMP END CRITICAL (evilmatmul)
|
||||||
|
|
||||||
|
!* mean free path between 2 obstacles seen by a moving dislocation
|
||||||
|
do i = 1_pInt,prm%totalNslip
|
||||||
|
if ((prm%totalNtwin > 0_pInt) .or. (prm%totalNtrans > 0_pInt)) then ! ToDo: This is too simplified
|
||||||
|
mse%mfp_slip(i,of) = &
|
||||||
|
prm%GrainSize/(1.0_pReal+prm%GrainSize*&
|
||||||
|
(mse%invLambdaSlip(i,of) + mse%invLambdaSlipTwin(i,of) + mse%invLambdaSlipTrans(i,of)))
|
||||||
|
else
|
||||||
|
mse%mfp_slip(i,of) = &
|
||||||
|
prm%GrainSize/&
|
||||||
|
(1.0_pReal+prm%GrainSize*(mse%invLambdaSlip(i,of))) !!!!!! correct?
|
||||||
|
endif
|
||||||
|
enddo
|
||||||
|
|
||||||
|
!* mean free path between 2 obstacles seen by a growing twin/martensite
|
||||||
|
mse%mfp_twin(:,of) = prm%Cmfptwin*prm%GrainSize/ (1.0_pReal+prm%GrainSize*mse%invLambdaTwin(:,of))
|
||||||
|
mse%mfp_trans(:,of) = prm%Cmfptrans*prm%GrainSize/(1.0_pReal+prm%GrainSize*mse%invLambdaTrans(:,of))
|
||||||
|
|
||||||
|
!* threshold stress for dislocation motion
|
||||||
|
forall (i = 1_pInt:prm%totalNslip) mse%threshold_stress_slip(i,of) = &
|
||||||
|
prm%mu*prm%burgers_slip(i)*&
|
||||||
|
sqrt(dot_product(stt%rhoEdge(1_pInt:prm%totalNslip,of)+stt%rhoEdgeDip(1_pInt:prm%totalNslip,of),&
|
||||||
|
prm%interaction_SlipSlip(i,1:prm%totalNslip)))
|
||||||
|
|
||||||
|
!* threshold stress for growing twin/martensite
|
||||||
|
if(prm%totalNtwin == prm%totalNslip) &
|
||||||
|
mse%threshold_stress_twin(:,of) = prm%Cthresholdtwin* &
|
||||||
|
(sfe/(3.0_pReal*prm%burgers_twin)+ 3.0_pReal*prm%burgers_twin*prm%mu/ &
|
||||||
|
(prm%L0_twin*prm%burgers_slip)) ! slip burgers here correct?
|
||||||
|
if(prm%totalNtrans == prm%totalNslip) &
|
||||||
|
mse%threshold_stress_trans(:,of) = prm%Cthresholdtrans* &
|
||||||
|
(sfe/(3.0_pReal*prm%burgers_trans) + 3.0_pReal*prm%burgers_trans*prm%mu/&
|
||||||
|
(prm%L0_trans*prm%burgers_slip) + prm%transStackHeight*prm%deltaG/ (3.0_pReal*prm%burgers_trans) )
|
||||||
|
|
||||||
|
! final volume after growth
|
||||||
|
mse%twinVolume(:,of) = (PI/4.0_pReal)*prm%twinsize*mse%mfp_twin(:,of)**2.0_pReal
|
||||||
|
mse%martensiteVolume(:,of) = (PI/4.0_pReal)*prm%lamellarsizePerTransSystem*mse%mfp_trans(:,of)**2.0_pReal
|
||||||
|
|
||||||
|
!* equilibrium separation of partial dislocations (twin)
|
||||||
|
x0 = prm%mu*prm%burgers_twin**2.0_pReal/(sfe*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu)
|
||||||
|
mse%tau_r_twin(:,of) = prm%mu*prm%burgers_twin/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_twin)+cos(pi/3.0_pReal)/x0)
|
||||||
|
|
||||||
|
!* equilibrium separation of partial dislocations (trans)
|
||||||
|
x0 = prm%mu*prm%burgers_trans**2.0_pReal/(sfe*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu)
|
||||||
|
mse%tau_r_trans(:,of) = prm%mu*prm%burgers_trans/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_trans)+cos(pi/3.0_pReal)/x0)
|
||||||
|
|
||||||
|
end associate
|
||||||
|
end subroutine plastic_dislotwin_dependentState
|
||||||
|
|
||||||
|
|
||||||
!--------------------------------------------------------------------------------------------------
|
!--------------------------------------------------------------------------------------------------
|
||||||
!> @brief return array of constitutive results
|
!> @brief return array of constitutive results
|
||||||
!--------------------------------------------------------------------------------------------------
|
!--------------------------------------------------------------------------------------------------
|
||||||
|
@ -1197,10 +1187,6 @@ function plastic_dislotwin_postResults(Mp,Temperature,instance,of) result(postRe
|
||||||
real(pReal), dimension(param(instance)%totalNslip) :: &
|
real(pReal), dimension(param(instance)%totalNslip) :: &
|
||||||
gdot_slip
|
gdot_slip
|
||||||
|
|
||||||
type(tParameters) :: prm
|
|
||||||
type(tDislotwinState) :: stt
|
|
||||||
type(tDislotwinMicrostructure) :: mse
|
|
||||||
|
|
||||||
|
|
||||||
associate(prm => param(instance), stt => state(instance), mse => microstructure(instance))
|
associate(prm => param(instance), stt => state(instance), mse => microstructure(instance))
|
||||||
|
|
||||||
|
|
Loading…
Reference in New Issue