partition temperature and use it
further work required: - homogenization_T does not have the correct value - homogenization of rate needed
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@ -599,20 +599,18 @@ module subroutine constitutive_plastic_dependentState(co, ip, el)
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el !< element
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integer :: &
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ho, & !< homogenization
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tme, & !< thermal member position
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ph, &
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instance, me
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ho = material_homogenizationAt(el)
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tme = material_homogenizationMemberAt(ip,el)
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ph = material_phaseAt(co,el)
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me = material_phasememberAt(co,ip,el)
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instance = phase_plasticityInstance(material_phaseAt(co,el))
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instance = phase_plasticityInstance(ph)
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plasticityType: select case (phase_plasticity(material_phaseAt(co,el)))
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case (PLASTICITY_DISLOTWIN_ID) plasticityType
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call plastic_dislotwin_dependentState(temperature(ho)%p(tme),instance,me)
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call plastic_dislotwin_dependentState(thermal_T(ph,me),instance,me)
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case (PLASTICITY_DISLOTUNGSTEN_ID) plasticityType
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call plastic_dislotungsten_dependentState(instance,me)
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@ -650,17 +648,13 @@ subroutine constitutive_plastic_LpAndItsTangents(Lp, dLp_dS, dLp_dFi, &
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real(pReal), dimension(3,3) :: &
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Mp !< Mandel stress work conjugate with Lp
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integer :: &
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ho, & !< homogenization
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tme !< thermal member position
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integer :: &
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i, j, instance, me
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i, j, instance, me, ph
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ho = material_homogenizationAt(el)
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tme = material_homogenizationMemberAt(ip,el)
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Mp = matmul(matmul(transpose(Fi),Fi),S)
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me = material_phasememberAt(co,ip,el)
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instance = phase_plasticityInstance(material_phaseAt(co,el))
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ph = material_phaseAt(co,el)
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instance = phase_plasticityInstance(ph)
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plasticityType: select case (phase_plasticity(material_phaseAt(co,el)))
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@ -678,13 +672,13 @@ subroutine constitutive_plastic_LpAndItsTangents(Lp, dLp_dS, dLp_dFi, &
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call plastic_kinehardening_LpAndItsTangent(Lp,dLp_dMp,Mp,instance,me)
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case (PLASTICITY_NONLOCAL_ID) plasticityType
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call plastic_nonlocal_LpAndItsTangent(Lp,dLp_dMp,Mp, temperature(ho)%p(tme),instance,me,ip,el)
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call plastic_nonlocal_LpAndItsTangent(Lp,dLp_dMp,Mp, thermal_T(ph,me),instance,me,ip,el)
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case (PLASTICITY_DISLOTWIN_ID) plasticityType
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call plastic_dislotwin_LpAndItsTangent(Lp,dLp_dMp,Mp,temperature(ho)%p(tme),instance,me)
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call plastic_dislotwin_LpAndItsTangent(Lp,dLp_dMp,Mp, thermal_T(ph,me),instance,me)
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case (PLASTICITY_DISLOTUNGSTEN_ID) plasticityType
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call plastic_dislotungsten_LpAndItsTangent(Lp,dLp_dMp,Mp,temperature(ho)%p(tme),instance,me)
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call plastic_dislotungsten_LpAndItsTangent(Lp,dLp_dMp,Mp, thermal_T(ph,me),instance,me)
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end select plasticityType
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@ -700,52 +694,49 @@ end subroutine constitutive_plastic_LpAndItsTangents
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!--------------------------------------------------------------------------------------------------
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!> @brief contains the constitutive equation for calculating the rate of change of microstructure
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!--------------------------------------------------------------------------------------------------
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function mech_collectDotState(subdt,co,ip,el,ph,of) result(broken)
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function mech_collectDotState(subdt,co,ip,el,ph,me) result(broken)
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integer, intent(in) :: &
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co, & !< component-ID of integration point
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ip, & !< integration point
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el, & !< element
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ph, &
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of
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me
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real(pReal), intent(in) :: &
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subdt !< timestep
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real(pReal), dimension(3,3) :: &
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Mp
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integer :: &
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ho, & !< homogenization
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tme, & !< thermal member position
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instance
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logical :: broken
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ho = material_homogenizationAt(el)
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tme = material_homogenizationMemberAt(ip,el)
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instance = phase_plasticityInstance(ph)
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Mp = matmul(matmul(transpose(constitutive_mech_Fi(ph)%data(1:3,1:3,of)),&
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constitutive_mech_Fi(ph)%data(1:3,1:3,of)),constitutive_mech_S(ph)%data(1:3,1:3,of))
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Mp = matmul(matmul(transpose(constitutive_mech_Fi(ph)%data(1:3,1:3,me)),&
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constitutive_mech_Fi(ph)%data(1:3,1:3,me)),constitutive_mech_S(ph)%data(1:3,1:3,me))
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plasticityType: select case (phase_plasticity(ph))
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case (PLASTICITY_ISOTROPIC_ID) plasticityType
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call plastic_isotropic_dotState(Mp,instance,of)
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call plastic_isotropic_dotState(Mp,instance,me)
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case (PLASTICITY_PHENOPOWERLAW_ID) plasticityType
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call plastic_phenopowerlaw_dotState(Mp,instance,of)
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call plastic_phenopowerlaw_dotState(Mp,instance,me)
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case (PLASTICITY_KINEHARDENING_ID) plasticityType
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call plastic_kinehardening_dotState(Mp,instance,of)
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call plastic_kinehardening_dotState(Mp,instance,me)
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case (PLASTICITY_DISLOTWIN_ID) plasticityType
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call plastic_dislotwin_dotState(Mp,temperature(ho)%p(tme),instance,of)
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call plastic_dislotwin_dotState(Mp,thermal_T(ph,me),instance,me)
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case (PLASTICITY_DISLOTUNGSTEN_ID) plasticityType
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call plastic_disloTungsten_dotState(Mp,temperature(ho)%p(tme),instance,of)
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call plastic_disloTungsten_dotState(Mp,thermal_T(ph,me),instance,me)
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case (PLASTICITY_NONLOCAL_ID) plasticityType
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call plastic_nonlocal_dotState(Mp,temperature(ho)%p(tme),subdt,instance,of,ip,el)
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call plastic_nonlocal_dotState(Mp,thermal_T(ph,me),subdt,instance,me,ip,el)
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end select plasticityType
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broken = any(IEEE_is_NaN(plasticState(ph)%dotState(:,of)))
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broken = any(IEEE_is_NaN(plasticState(ph)%dotState(:,me)))
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end function mech_collectDotState
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@ -258,11 +258,13 @@ subroutine materialpoint_stressAndItsTangent(dt,FEsolving_execIP,FEsolving_execE
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!$OMP END PARALLEL DO
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if (.not. terminallyIll ) then
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!$OMP PARALLEL DO PRIVATE(ho,ph)
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!$OMP PARALLEL DO PRIVATE(ho,ph,ce)
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do el = FEsolving_execElem(1),FEsolving_execElem(2)
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if (terminallyIll) continue
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ho = material_homogenizationAt(el)
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do ip = FEsolving_execIP(1),FEsolving_execIP(2)
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ce = (el-1)*discretization_nIPs + ip
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call thermal_partition(homogenization_T(ce),ip,el)
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do co = 1, homogenization_Nconstituents(ho)
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ph = material_phaseAt(co,el)
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call constitutive_thermal_initializeRestorationPoints(ph,material_phaseMemberAt(co,ip,el))
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