Merge remote-tracking branch 'origin/spell-check' into development
This commit is contained in:
commit
754d56da46
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@ -452,11 +452,11 @@ subroutine constitutive_init
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PhaseLoop2:do p = 1,phases%length
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!--------------------------------------------------------------------------------------------------
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! partition and initialize state
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plasticState(p)%partionedState0 = plasticState(p)%state0
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plasticState(p)%state = plasticState(p)%partionedState0
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plasticState(p)%partitionedState0 = plasticState(p)%state0
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plasticState(p)%state = plasticState(p)%partitionedState0
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forall(s = 1:phase_Nsources(p))
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sourceState(p)%p(s)%partionedState0 = sourceState(p)%p(s)%state0
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sourceState(p)%p(s)%state = sourceState(p)%p(s)%partionedState0
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sourceState(p)%p(s)%partitionedState0 = sourceState(p)%p(s)%state0
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sourceState(p)%p(s)%state = sourceState(p)%p(s)%partitionedState0
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end forall
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constitutive_source_maxSizeDotState = max(constitutive_source_maxSizeDotState, &
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@ -922,7 +922,7 @@ subroutine constitutive_allocateState(state, &
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allocate(state%atol (sizeState), source=0.0_pReal)
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allocate(state%state0 (sizeState,NipcMyPhase), source=0.0_pReal)
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allocate(state%partionedState0(sizeState,NipcMyPhase), source=0.0_pReal)
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allocate(state%partitionedState0(sizeState,NipcMyPhase), source=0.0_pReal)
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allocate(state%subState0 (sizeState,NipcMyPhase), source=0.0_pReal)
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allocate(state%state (sizeState,NipcMyPhase), source=0.0_pReal)
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@ -44,30 +44,30 @@ module crystallite
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!
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crystallite_Fp, & !< current plastic def grad (end of converged time step)
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crystallite_Fp0, & !< plastic def grad at start of FE inc
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crystallite_partionedFp0,& !< plastic def grad at start of homog inc
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crystallite_partitionedFp0,& !< plastic def grad at start of homog inc
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crystallite_subFp0,& !< plastic def grad at start of crystallite inc
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!
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crystallite_Fi, & !< current intermediate def grad (end of converged time step)
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crystallite_Fi0, & !< intermediate def grad at start of FE inc
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crystallite_partionedFi0,& !< intermediate def grad at start of homog inc
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crystallite_partitionedFi0,& !< intermediate def grad at start of homog inc
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crystallite_subFi0,& !< intermediate def grad at start of crystallite inc
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!
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crystallite_Lp0, & !< plastic velocitiy grad at start of FE inc
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crystallite_partionedLp0, & !< plastic velocity grad at start of homog inc
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crystallite_partitionedLp0, & !< plastic velocity grad at start of homog inc
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!
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crystallite_Li, & !< current intermediate velocitiy grad (end of converged time step)
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crystallite_Li0, & !< intermediate velocitiy grad at start of FE inc
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crystallite_partionedLi0, & !< intermediate velocity grad at start of homog inc
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crystallite_partitionedLi0, & !< intermediate velocity grad at start of homog inc
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!
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crystallite_S0, & !< 2nd Piola-Kirchhoff stress vector at start of FE inc
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crystallite_partionedS0 !< 2nd Piola-Kirchhoff stress vector at start of homog inc
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crystallite_partitionedS0 !< 2nd Piola-Kirchhoff stress vector at start of homog inc
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real(pReal), dimension(:,:,:,:,:), allocatable, public, protected :: &
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crystallite_P, & !< 1st Piola-Kirchhoff stress per grain
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crystallite_Lp, & !< current plastic velocitiy grad (end of converged time step)
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crystallite_S, & !< current 2nd Piola-Kirchhoff stress vector (end of converged time step)
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crystallite_partionedF0 !< def grad at start of homog inc
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crystallite_partitionedF0 !< def grad at start of homog inc
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real(pReal), dimension(:,:,:,:,:), allocatable, public :: &
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crystallite_partionedF !< def grad to be reached at end of homog inc
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crystallite_partitionedF !< def grad to be reached at end of homog inc
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logical, dimension(:,:,:), allocatable, public :: &
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crystallite_requested !< used by upper level (homogenization) to request crystallite calculation
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@ -166,20 +166,20 @@ subroutine crystallite_init
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iMax = discretization_nIP
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eMax = discretization_nElem
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allocate(crystallite_partionedF(3,3,cMax,iMax,eMax),source=0.0_pReal)
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allocate(crystallite_partitionedF(3,3,cMax,iMax,eMax),source=0.0_pReal)
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allocate(crystallite_S0, &
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crystallite_F0, crystallite_Fi0,crystallite_Fp0, &
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crystallite_Li0,crystallite_Lp0, &
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crystallite_partionedS0, &
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crystallite_partionedF0,crystallite_partionedFp0,crystallite_partionedFi0, &
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crystallite_partionedLp0,crystallite_partionedLi0, &
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crystallite_partitionedS0, &
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crystallite_partitionedF0,crystallite_partitionedFp0,crystallite_partitionedFi0, &
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crystallite_partitionedLp0,crystallite_partitionedLi0, &
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crystallite_S,crystallite_P, &
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crystallite_Fe,crystallite_Fi,crystallite_Fp, &
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crystallite_Li,crystallite_Lp, &
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crystallite_subF,crystallite_subF0, &
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crystallite_subFp0,crystallite_subFi0, &
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source = crystallite_partionedF)
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source = crystallite_partitionedF)
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allocate(crystallite_dt(cMax,iMax,eMax),source=0.0_pReal)
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allocate(crystallite_subdt,crystallite_subFrac,crystallite_subStep, &
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@ -269,10 +269,10 @@ subroutine crystallite_init
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!$OMP END PARALLEL DO
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crystallite_partionedFp0 = crystallite_Fp0
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crystallite_partionedFi0 = crystallite_Fi0
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crystallite_partionedF0 = crystallite_F0
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crystallite_partionedF = crystallite_F0
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crystallite_partitionedFp0 = crystallite_Fp0
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crystallite_partitionedFi0 = crystallite_Fi0
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crystallite_partitionedF0 = crystallite_F0
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crystallite_partitionedF = crystallite_F0
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call crystallite_orientations()
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@ -280,8 +280,8 @@ subroutine crystallite_init
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do e = FEsolving_execElem(1),FEsolving_execElem(2)
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do i = FEsolving_execIP(1),FEsolving_execIP(2)
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do c = 1,homogenization_Ngrains(material_homogenizationAt(e))
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call constitutive_dependentState(crystallite_partionedF0(1:3,1:3,c,i,e), &
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crystallite_partionedFp0(1:3,1:3,c,i,e), &
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call constitutive_dependentState(crystallite_partitionedF0(1:3,1:3,c,i,e), &
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crystallite_partitionedFp0(1:3,1:3,c,i,e), &
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c,i,e) ! update dependent state variables to be consistent with basic states
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enddo
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enddo
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@ -325,8 +325,8 @@ function crystallite_stress()
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todo = .false.
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subLp0 = crystallite_partionedLp0
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subLi0 = crystallite_partionedLi0
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subLp0 = crystallite_partitionedLp0
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subLi0 = crystallite_partitionedLi0
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@ -338,15 +338,15 @@ function crystallite_stress()
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do i = FEsolving_execIP(1),FEsolving_execIP(2); do c = 1,homogenization_Ngrains(material_homogenizationAt(e))
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homogenizationRequestsCalculation: if (crystallite_requested(c,i,e)) then
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plasticState (material_phaseAt(c,e))%subState0( :,material_phaseMemberAt(c,i,e)) = &
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plasticState (material_phaseAt(c,e))%partionedState0(:,material_phaseMemberAt(c,i,e))
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plasticState (material_phaseAt(c,e))%partitionedState0(:,material_phaseMemberAt(c,i,e))
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do s = 1, phase_Nsources(material_phaseAt(c,e))
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sourceState(material_phaseAt(c,e))%p(s)%subState0( :,material_phaseMemberAt(c,i,e)) = &
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sourceState(material_phaseAt(c,e))%p(s)%partionedState0(:,material_phaseMemberAt(c,i,e))
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sourceState(material_phaseAt(c,e))%p(s)%partitionedState0(:,material_phaseMemberAt(c,i,e))
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enddo
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crystallite_subFp0(1:3,1:3,c,i,e) = crystallite_partionedFp0(1:3,1:3,c,i,e)
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crystallite_subFi0(1:3,1:3,c,i,e) = crystallite_partionedFi0(1:3,1:3,c,i,e)
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crystallite_subF0(1:3,1:3,c,i,e) = crystallite_partionedF0(1:3,1:3,c,i,e)
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crystallite_subFp0(1:3,1:3,c,i,e) = crystallite_partitionedFp0(1:3,1:3,c,i,e)
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crystallite_subFi0(1:3,1:3,c,i,e) = crystallite_partitionedFi0(1:3,1:3,c,i,e)
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crystallite_subF0(1:3,1:3,c,i,e) = crystallite_partitionedF0(1:3,1:3,c,i,e)
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crystallite_subFrac(c,i,e) = 0.0_pReal
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crystallite_subStep(c,i,e) = 1.0_pReal/num%subStepSizeCryst
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todo(c,i,e) = .true.
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@ -426,8 +426,8 @@ function crystallite_stress()
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! prepare for integration
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if (todo(c,i,e)) then
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crystallite_subF(1:3,1:3,c,i,e) = crystallite_subF0(1:3,1:3,c,i,e) &
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+ crystallite_subStep(c,i,e) *( crystallite_partionedF (1:3,1:3,c,i,e) &
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-crystallite_partionedF0(1:3,1:3,c,i,e))
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+ crystallite_subStep(c,i,e) *( crystallite_partitionedF (1:3,1:3,c,i,e) &
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-crystallite_partitionedF0(1:3,1:3,c,i,e))
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crystallite_Fe(1:3,1:3,c,i,e) = matmul(matmul(crystallite_subF(1:3,1:3,c,i,e), &
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math_inv33(crystallite_Fp(1:3,1:3,c,i,e))), &
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math_inv33(crystallite_Fi(1:3,1:3,c,i,e)))
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@ -475,17 +475,17 @@ subroutine crystallite_initializeRestorationPoints(i,e)
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s
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do c = 1,homogenization_Ngrains(material_homogenizationAt(e))
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crystallite_partionedFp0(1:3,1:3,c,i,e) = crystallite_Fp0(1:3,1:3,c,i,e)
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crystallite_partionedLp0(1:3,1:3,c,i,e) = crystallite_Lp0(1:3,1:3,c,i,e)
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crystallite_partionedFi0(1:3,1:3,c,i,e) = crystallite_Fi0(1:3,1:3,c,i,e)
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crystallite_partionedLi0(1:3,1:3,c,i,e) = crystallite_Li0(1:3,1:3,c,i,e)
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crystallite_partionedF0(1:3,1:3,c,i,e) = crystallite_F0(1:3,1:3,c,i,e)
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crystallite_partionedS0(1:3,1:3,c,i,e) = crystallite_S0(1:3,1:3,c,i,e)
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crystallite_partitionedFp0(1:3,1:3,c,i,e) = crystallite_Fp0(1:3,1:3,c,i,e)
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crystallite_partitionedLp0(1:3,1:3,c,i,e) = crystallite_Lp0(1:3,1:3,c,i,e)
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crystallite_partitionedFi0(1:3,1:3,c,i,e) = crystallite_Fi0(1:3,1:3,c,i,e)
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crystallite_partitionedLi0(1:3,1:3,c,i,e) = crystallite_Li0(1:3,1:3,c,i,e)
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crystallite_partitionedF0(1:3,1:3,c,i,e) = crystallite_F0(1:3,1:3,c,i,e)
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crystallite_partitionedS0(1:3,1:3,c,i,e) = crystallite_S0(1:3,1:3,c,i,e)
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plasticState(material_phaseAt(c,e))%partionedState0(:,material_phasememberAt(c,i,e)) = &
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plasticState(material_phaseAt(c,e))%partitionedState0(:,material_phasememberAt(c,i,e)) = &
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plasticState(material_phaseAt(c,e))%state0( :,material_phasememberAt(c,i,e))
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do s = 1, phase_Nsources(material_phaseAt(c,e))
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sourceState(material_phaseAt(c,e))%p(s)%partionedState0(:,material_phasememberAt(c,i,e)) = &
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sourceState(material_phaseAt(c,e))%p(s)%partitionedState0(:,material_phasememberAt(c,i,e)) = &
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sourceState(material_phaseAt(c,e))%p(s)%state0( :,material_phasememberAt(c,i,e))
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enddo
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enddo
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@ -506,17 +506,17 @@ subroutine crystallite_windForward(i,e)
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s
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do c = 1,homogenization_Ngrains(material_homogenizationAt(e))
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crystallite_partionedF0 (1:3,1:3,c,i,e) = crystallite_partionedF(1:3,1:3,c,i,e)
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crystallite_partionedFp0(1:3,1:3,c,i,e) = crystallite_Fp (1:3,1:3,c,i,e)
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crystallite_partionedLp0(1:3,1:3,c,i,e) = crystallite_Lp (1:3,1:3,c,i,e)
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crystallite_partionedFi0(1:3,1:3,c,i,e) = crystallite_Fi (1:3,1:3,c,i,e)
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crystallite_partionedLi0(1:3,1:3,c,i,e) = crystallite_Li (1:3,1:3,c,i,e)
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crystallite_partionedS0 (1:3,1:3,c,i,e) = crystallite_S (1:3,1:3,c,i,e)
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crystallite_partitionedF0 (1:3,1:3,c,i,e) = crystallite_partitionedF(1:3,1:3,c,i,e)
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crystallite_partitionedFp0(1:3,1:3,c,i,e) = crystallite_Fp (1:3,1:3,c,i,e)
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crystallite_partitionedLp0(1:3,1:3,c,i,e) = crystallite_Lp (1:3,1:3,c,i,e)
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crystallite_partitionedFi0(1:3,1:3,c,i,e) = crystallite_Fi (1:3,1:3,c,i,e)
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crystallite_partitionedLi0(1:3,1:3,c,i,e) = crystallite_Li (1:3,1:3,c,i,e)
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crystallite_partitionedS0 (1:3,1:3,c,i,e) = crystallite_S (1:3,1:3,c,i,e)
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plasticState (material_phaseAt(c,e))%partionedState0(:,material_phasememberAt(c,i,e)) = &
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plasticState (material_phaseAt(c,e))%partitionedState0(:,material_phasememberAt(c,i,e)) = &
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plasticState (material_phaseAt(c,e))%state (:,material_phasememberAt(c,i,e))
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do s = 1, phase_Nsources(material_phaseAt(c,e))
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sourceState(material_phaseAt(c,e))%p(s)%partionedState0(:,material_phasememberAt(c,i,e)) = &
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sourceState(material_phaseAt(c,e))%p(s)%partitionedState0(:,material_phasememberAt(c,i,e)) = &
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sourceState(material_phaseAt(c,e))%p(s)%state (:,material_phasememberAt(c,i,e))
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enddo
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enddo
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@ -540,18 +540,18 @@ subroutine crystallite_restore(i,e,includeL)
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do c = 1,homogenization_Ngrains(material_homogenizationAt(e))
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if (includeL) then
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crystallite_Lp(1:3,1:3,c,i,e) = crystallite_partionedLp0(1:3,1:3,c,i,e)
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crystallite_Li(1:3,1:3,c,i,e) = crystallite_partionedLi0(1:3,1:3,c,i,e)
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crystallite_Lp(1:3,1:3,c,i,e) = crystallite_partitionedLp0(1:3,1:3,c,i,e)
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crystallite_Li(1:3,1:3,c,i,e) = crystallite_partitionedLi0(1:3,1:3,c,i,e)
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endif ! maybe protecting everything from overwriting makes more sense
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crystallite_Fp(1:3,1:3,c,i,e) = crystallite_partionedFp0(1:3,1:3,c,i,e)
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crystallite_Fi(1:3,1:3,c,i,e) = crystallite_partionedFi0(1:3,1:3,c,i,e)
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crystallite_S (1:3,1:3,c,i,e) = crystallite_partionedS0 (1:3,1:3,c,i,e)
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crystallite_Fp(1:3,1:3,c,i,e) = crystallite_partitionedFp0(1:3,1:3,c,i,e)
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crystallite_Fi(1:3,1:3,c,i,e) = crystallite_partitionedFi0(1:3,1:3,c,i,e)
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crystallite_S (1:3,1:3,c,i,e) = crystallite_partitionedS0 (1:3,1:3,c,i,e)
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plasticState (material_phaseAt(c,e))%state( :,material_phasememberAt(c,i,e)) = &
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plasticState (material_phaseAt(c,e))%partionedState0(:,material_phasememberAt(c,i,e))
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plasticState (material_phaseAt(c,e))%partitionedState0(:,material_phasememberAt(c,i,e))
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do s = 1, phase_Nsources(material_phaseAt(c,e))
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sourceState(material_phaseAt(c,e))%p(s)%state( :,material_phasememberAt(c,i,e)) = &
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sourceState(material_phaseAt(c,e))%p(s)%partionedState0(:,material_phasememberAt(c,i,e))
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sourceState(material_phaseAt(c,e))%p(s)%partitionedState0(:,material_phasememberAt(c,i,e))
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enddo
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enddo
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@ -758,7 +758,7 @@ subroutine crystallite_results
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do o = 1, size(output_constituent(p)%label)
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select case (output_constituent(p)%label(o))
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case('F')
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selected_tensors = select_tensors(crystallite_partionedF,p)
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selected_tensors = select_tensors(crystallite_partitionedF,p)
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call results_writeDataset(group,selected_tensors,output_constituent(p)%label(o),&
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'deformation gradient','1')
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case('Fe')
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@ -943,7 +943,7 @@ function integrateStress(ipc,ip,el,timeFraction) result(broken)
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F = crystallite_subF(1:3,1:3,ipc,ip,el)
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endif
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call constitutive_dependentState(crystallite_partionedF(1:3,1:3,ipc,ip,el), &
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call constitutive_dependentState(crystallite_partitionedF(1:3,1:3,ipc,ip,el), &
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crystallite_Fp(1:3,1:3,ipc,ip,el),ipc,ip,el)
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Lpguess = crystallite_Lp(1:3,1:3,ipc,ip,el) ! take as first guess
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@ -1120,9 +1120,9 @@ subroutine integrateStateFPI(g,i,e)
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c = material_phaseMemberAt(g,i,e)
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broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
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crystallite_partionedF0, &
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crystallite_partitionedF0, &
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crystallite_Fi(1:3,1:3,g,i,e), &
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crystallite_partionedFp0, &
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crystallite_partitionedFp0, &
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crystallite_subdt(g,i,e), g,i,e,p,c)
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if(broken) return
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@ -1152,9 +1152,9 @@ subroutine integrateStateFPI(g,i,e)
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if(broken) exit iteration
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||||
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broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
|
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crystallite_partionedF0, &
|
||||
crystallite_partitionedF0, &
|
||||
crystallite_Fi(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedFp0, &
|
||||
crystallite_partitionedFp0, &
|
||||
crystallite_subdt(g,i,e), g,i,e,p,c)
|
||||
if(broken) exit iteration
|
||||
|
||||
|
@ -1243,9 +1243,9 @@ subroutine integrateStateEuler(g,i,e)
|
|||
c = material_phaseMemberAt(g,i,e)
|
||||
|
||||
broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedF0, &
|
||||
crystallite_partitionedF0, &
|
||||
crystallite_Fi(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedFp0, &
|
||||
crystallite_partitionedFp0, &
|
||||
crystallite_subdt(g,i,e), g,i,e,p,c)
|
||||
if(broken) return
|
||||
|
||||
|
@ -1296,9 +1296,9 @@ subroutine integrateStateAdaptiveEuler(g,i,e)
|
|||
c = material_phaseMemberAt(g,i,e)
|
||||
|
||||
broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedF0, &
|
||||
crystallite_partitionedF0, &
|
||||
crystallite_Fi(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedFp0, &
|
||||
crystallite_partitionedFp0, &
|
||||
crystallite_subdt(g,i,e), g,i,e,p,c)
|
||||
if(broken) return
|
||||
|
||||
|
@ -1325,9 +1325,9 @@ subroutine integrateStateAdaptiveEuler(g,i,e)
|
|||
if(broken) return
|
||||
|
||||
broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedF0, &
|
||||
crystallite_partitionedF0, &
|
||||
crystallite_Fi(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedFp0, &
|
||||
crystallite_partitionedFp0, &
|
||||
crystallite_subdt(g,i,e), g,i,e,p,c)
|
||||
if(broken) return
|
||||
|
||||
|
@ -1434,9 +1434,9 @@ subroutine integrateStateRK(g,i,e,A,B,CC,DB)
|
|||
c = material_phaseMemberAt(g,i,e)
|
||||
|
||||
broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedF0, &
|
||||
crystallite_partitionedF0, &
|
||||
crystallite_Fi(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedFp0, &
|
||||
crystallite_partitionedFp0, &
|
||||
crystallite_subdt(g,i,e), g,i,e,p,c)
|
||||
if(broken) return
|
||||
|
||||
|
@ -1476,9 +1476,9 @@ subroutine integrateStateRK(g,i,e,A,B,CC,DB)
|
|||
if(broken) exit
|
||||
|
||||
broken = constitutive_collectDotState(crystallite_S(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedF0, &
|
||||
crystallite_partitionedF0, &
|
||||
crystallite_Fi(1:3,1:3,g,i,e), &
|
||||
crystallite_partionedFp0, &
|
||||
crystallite_partitionedFp0, &
|
||||
crystallite_subdt(g,i,e)*CC(stage), g,i,e,p,c)
|
||||
if(broken) exit
|
||||
|
||||
|
@ -1590,7 +1590,7 @@ subroutine crystallite_restartWrite
|
|||
write(fileName,'(a,i0,a)') trim(getSolverJobName())//'_',worldrank,'.hdf5'
|
||||
fileHandle = HDF5_openFile(fileName,'a')
|
||||
|
||||
call HDF5_write(fileHandle,crystallite_partionedF,'F')
|
||||
call HDF5_write(fileHandle,crystallite_partitionedF,'F')
|
||||
call HDF5_write(fileHandle,crystallite_Fp, 'Fp')
|
||||
call HDF5_write(fileHandle,crystallite_Fi, 'Fi')
|
||||
call HDF5_write(fileHandle,crystallite_Lp, 'Lp')
|
||||
|
@ -1665,7 +1665,7 @@ subroutine crystallite_forward
|
|||
|
||||
integer :: i, j
|
||||
|
||||
crystallite_F0 = crystallite_partionedF
|
||||
crystallite_F0 = crystallite_partitionedF
|
||||
crystallite_Fp0 = crystallite_Fp
|
||||
crystallite_Lp0 = crystallite_Lp
|
||||
crystallite_Fi0 = crystallite_Fi
|
||||
|
|
|
@ -404,16 +404,16 @@ subroutine partitionDeformation(subF,ip,el)
|
|||
chosenHomogenization: select case(homogenization_type(material_homogenizationAt(el)))
|
||||
|
||||
case (HOMOGENIZATION_NONE_ID) chosenHomogenization
|
||||
crystallite_partionedF(1:3,1:3,1,ip,el) = subF
|
||||
crystallite_partitionedF(1:3,1:3,1,ip,el) = subF
|
||||
|
||||
case (HOMOGENIZATION_ISOSTRAIN_ID) chosenHomogenization
|
||||
call mech_isostrain_partitionDeformation(&
|
||||
crystallite_partionedF(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
crystallite_partitionedF(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
subF)
|
||||
|
||||
case (HOMOGENIZATION_RGC_ID) chosenHomogenization
|
||||
call mech_RGC_partitionDeformation(&
|
||||
crystallite_partionedF(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
crystallite_partitionedF(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
subF,&
|
||||
ip, &
|
||||
el)
|
||||
|
@ -448,8 +448,8 @@ function updateState(subdt,subF,ip,el)
|
|||
updateState = &
|
||||
updateState .and. &
|
||||
mech_RGC_updateState(crystallite_P(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
crystallite_partionedF(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
crystallite_partionedF0(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el),&
|
||||
crystallite_partitionedF(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el), &
|
||||
crystallite_partitionedF0(1:3,1:3,1:homogenization_Ngrains(material_homogenizationAt(el)),ip,el),&
|
||||
subF,&
|
||||
subdt, &
|
||||
dPdFs, &
|
||||
|
|
|
@ -212,7 +212,7 @@ end subroutine mech_RGC_init
|
|||
!--------------------------------------------------------------------------------------------------
|
||||
module subroutine mech_RGC_partitionDeformation(F,avgF,instance,of)
|
||||
|
||||
real(pReal), dimension (:,:,:), intent(out) :: F !< partioned F per grain
|
||||
real(pReal), dimension (:,:,:), intent(out) :: F !< partitioned F per grain
|
||||
|
||||
real(pReal), dimension (3,3), intent(in) :: avgF !< averaged F
|
||||
integer, intent(in) :: &
|
||||
|
@ -867,7 +867,7 @@ module procedure mech_RGC_updateState
|
|||
!--------------------------------------------------------------------------------------------------
|
||||
subroutine grainDeformation(F, avgF, instance, of)
|
||||
|
||||
real(pReal), dimension(:,:,:), intent(out) :: F !< partioned F per grain
|
||||
real(pReal), dimension(:,:,:), intent(out) :: F !< partitioned F per grain
|
||||
|
||||
real(pReal), dimension(:,:), intent(in) :: avgF !< averaged F
|
||||
integer, intent(in) :: &
|
||||
|
|
|
@ -47,7 +47,7 @@ module prec
|
|||
dotState, & !< rate of state change
|
||||
deltaState !< increment of state change
|
||||
real(pReal), allocatable, dimension(:,:) :: &
|
||||
partionedState0, &
|
||||
partitionedState0, &
|
||||
subState0
|
||||
end type
|
||||
|
||||
|
|
Loading…
Reference in New Issue