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! Copyright 2011-13 Max-Planck-Institut für Eisenforschung GmbH
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!
! This file is part of DAMASK,
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! the Düsseldorf Advanced MAterial Simulation Kit.
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!
! DAMASK is free software: you can redistribute it and/or modify
! it under the terms of the GNU General Public License as published by
! the Free Software Foundation, either version 3 of the License, or
! (at your option) any later version.
!
! DAMASK is distributed in the hope that it will be useful,
! but WITHOUT ANY WARRANTY; without even the implied warranty of
! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
! GNU General Public License for more details.
!
! You should have received a copy of the GNU General Public License
! along with DAMASK. If not, see <http://www.gnu.org/licenses/>.
!
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!--------------------------------------------------------------------------------------------------
! $Id$
!--------------------------------------------------------------------------------------------------
!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
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!> @brief material subroutine for phenomenological crystal plasticity formulation using a powerlaw
!! fitting
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!--------------------------------------------------------------------------------------------------
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module constitutive_phenopowerlaw
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use prec , only : &
pReal , &
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pInt
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implicit none
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private
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character ( len = * ) , parameter , public :: &
CONSTITUTIVE_PHENOPOWERLAW_label = 'phenopowerlaw'
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integer ( pInt ) , dimension ( : ) , allocatable , public :: &
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constitutive_phenopowerlaw_sizeDotState , &
constitutive_phenopowerlaw_sizeState , &
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constitutive_phenopowerlaw_sizePostResults , & !< cumulative size of post results
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constitutive_phenopowerlaw_structure
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integer ( pInt ) , dimension ( : , : ) , allocatable , target , public :: &
constitutive_phenopowerlaw_sizePostResult !< size of each post result output
character ( len = 64 ) , dimension ( : , : ) , allocatable , target , public :: &
constitutive_phenopowerlaw_output !< name of each post result output
character ( len = 32 ) , dimension ( : ) , allocatable , public :: &
constitutive_phenopowerlaw_structureName
integer ( pInt ) , dimension ( : ) , allocatable , private :: &
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constitutive_phenopowerlaw_Noutput , & !< number of outputs per instance of this constitution
constitutive_phenopowerlaw_totalNslip , & !< no. of slip system used in simulation
constitutive_phenopowerlaw_totalNtwin !< no. of twin system used in simulation
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integer ( pInt ) , dimension ( : , : ) , allocatable , private :: &
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constitutive_phenopowerlaw_Nslip , & !< active number of slip systems per family (input parameter, per family)
constitutive_phenopowerlaw_Ntwin !< active number of twin systems per family (input parameter, per family)
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real ( pReal ) , dimension ( : ) , allocatable , private :: &
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constitutive_phenopowerlaw_CoverA , & !< c/a of the crystal (input parameter)
constitutive_phenopowerlaw_gdot0_slip , & !< reference shear strain rate for slip (input parameter)
constitutive_phenopowerlaw_gdot0_twin , & !< reference shear strain rate for twin (input parameter)
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constitutive_phenopowerlaw_n_slip , & !< stress exponent for slip (input parameter)
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constitutive_phenopowerlaw_n_twin , & !< stress exponent for twin (input parameter)
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constitutive_phenopowerlaw_spr , & !< push-up factor for slip saturation due to twinning
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constitutive_phenopowerlaw_twinB , &
constitutive_phenopowerlaw_twinC , &
constitutive_phenopowerlaw_twinD , &
constitutive_phenopowerlaw_twinE , &
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constitutive_phenopowerlaw_h0_SlipSlip , & !< reference hardening slip - slip (input parameter)
constitutive_phenopowerlaw_h0_SlipTwin , & !< reference hardening slip - twin (input parameter, no effect at the moment)
constitutive_phenopowerlaw_h0_TwinSlip , & !< reference hardening twin - slip (input parameter)
constitutive_phenopowerlaw_h0_TwinTwin , & !< reference hardening twin - twin (input parameter)
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constitutive_phenopowerlaw_a_slip , &
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constitutive_phenopowerlaw_aTolResistance , &
constitutive_phenopowerlaw_aTolShear , &
constitutive_phenopowerlaw_aTolTwinfrac
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real ( pReal ) , dimension ( : , : ) , allocatable , private :: &
constitutive_phenopowerlaw_tau0_slip , & !< initial critical shear stress for slip (input parameter, per family)
constitutive_phenopowerlaw_tau0_twin , & !< initial critical shear stress for twin (input parameter, per family)
constitutive_phenopowerlaw_tausat_slip , & !< maximum critical shear stress for slip (input parameter, per family)
constitutive_phenopowerlaw_nonSchmidCoeff , &
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constitutive_phenopowerlaw_interaction_SlipSlip , & !< interaction factors slip - slip (input parameter)
constitutive_phenopowerlaw_interaction_SlipTwin , & !< interaction factors slip - twin (input parameter)
constitutive_phenopowerlaw_interaction_TwinSlip , & !< interaction factors twin - slip (input parameter)
constitutive_phenopowerlaw_interaction_TwinTwin !< interaction factors twin - twin (input parameter)
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real ( pReal ) , dimension ( : , : , : ) , allocatable , private :: &
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constitutive_phenopowerlaw_hardeningMatrix_SlipSlip , &
constitutive_phenopowerlaw_hardeningMatrix_SlipTwin , &
constitutive_phenopowerlaw_hardeningMatrix_TwinSlip , &
constitutive_phenopowerlaw_hardeningMatrix_TwinTwin , &
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constitutive_phenopowerlaw_Cslip_66
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public :: &
constitutive_phenopowerlaw_init , &
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constitutive_phenopowerlaw_stateInit , &
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constitutive_phenopowerlaw_aTolState , &
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constitutive_phenopowerlaw_homogenizedC , &
constitutive_phenopowerlaw_microstructure , &
constitutive_phenopowerlaw_LpAndItsTangent , &
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constitutive_phenopowerlaw_dotState , &
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constitutive_phenopowerlaw_deltaState , &
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constitutive_phenopowerlaw_dotTemperature , &
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constitutive_phenopowerlaw_postResults
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contains
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!--------------------------------------------------------------------------------------------------
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!> @brief module initialization
!> @details reads in material parameters, allocates arrays, and does sanity checks
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!--------------------------------------------------------------------------------------------------
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subroutine constitutive_phenopowerlaw_init ( myFile )
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use , intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran 4.6 at the moment)
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use prec , only : &
tol_math_check
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use math , only : &
math_Mandel3333to66 , &
math_Voigt66to3333
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use IO
use material
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use debug , only : &
debug_level , &
debug_constitutive , &
debug_levelBasic
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use lattice
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implicit none
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integer ( pInt ) , intent ( in ) :: myFile
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integer ( pInt ) , parameter :: MAXNCHUNKS = lattice_maxNinteraction + 1_pInt
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integer ( pInt ) , dimension ( 1_pInt + 2_pInt * MAXNCHUNKS ) :: positions
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integer ( pInt ) , dimension ( 7 ) :: configNchunks
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integer ( pInt ) :: &
maxNinstance , &
i , j , k , f , o , &
Nchunks_SlipSlip , Nchunks_SlipTwin , Nchunks_TwinSlip , Nchunks_TwinTwin , &
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Nchunks_SlipFamilies , Nchunks_TwinFamilies , Nchunks_nonSchmid , &
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myStructure , index_myFamily , index_otherFamily , &
mySize = 0_pInt , section = 0_pInt
character ( len = 65536 ) :: &
tag = '' , &
line = '' ! to start initialized
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write ( 6 , '(/,a)' ) ' <<<+- constitutive_' / / trim ( CONSTITUTIVE_PHENOPOWERLAW_label ) / / ' init -+>>>'
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write ( 6 , '(a)' ) ' $Id$'
write ( 6 , '(a15,a)' ) ' Current time: ' , IO_timeStamp ( )
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#include "compilation_info.f90"
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maxNinstance = int ( count ( phase_plasticity == CONSTITUTIVE_PHENOPOWERLAW_label ) , pInt )
if ( maxNinstance == 0_pInt ) return
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if ( iand ( debug_level ( debug_constitutive ) , debug_levelBasic ) / = 0_pInt ) &
write ( 6 , '(a16,1x,i5,/)' ) '# instances:' , maxNinstance
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Nchunks_SlipFamilies = lattice_maxNslipFamily
Nchunks_TwinFamilies = lattice_maxNtwinFamily
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Nchunks_SlipSlip = lattice_maxNinteraction
Nchunks_SlipTwin = lattice_maxNinteraction
Nchunks_TwinSlip = lattice_maxNinteraction
Nchunks_TwinTwin = lattice_maxNinteraction
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Nchunks_nonSchmid = lattice_maxNnonSchmid
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allocate ( constitutive_phenopowerlaw_sizeDotState ( maxNinstance ) )
constitutive_phenopowerlaw_sizeDotState = 0_pInt
allocate ( constitutive_phenopowerlaw_sizeState ( maxNinstance ) )
constitutive_phenopowerlaw_sizeState = 0_pInt
allocate ( constitutive_phenopowerlaw_sizePostResults ( maxNinstance ) )
constitutive_phenopowerlaw_sizePostResults = 0_pInt
allocate ( constitutive_phenopowerlaw_sizePostResult ( maxval ( phase_Noutput ) , maxNinstance ) )
constitutive_phenopowerlaw_sizePostResult = 0_pInt
allocate ( constitutive_phenopowerlaw_output ( maxval ( phase_Noutput ) , maxNinstance ) )
constitutive_phenopowerlaw_output = ''
allocate ( constitutive_phenopowerlaw_Noutput ( maxNinstance ) )
constitutive_phenopowerlaw_Noutput = 0_pInt
allocate ( constitutive_phenopowerlaw_structureName ( maxNinstance ) )
constitutive_phenopowerlaw_structureName = ''
allocate ( constitutive_phenopowerlaw_structure ( maxNinstance ) )
constitutive_phenopowerlaw_structure = 0_pInt
allocate ( constitutive_phenopowerlaw_Nslip ( lattice_maxNslipFamily , maxNinstance ) )
constitutive_phenopowerlaw_Nslip = 0_pInt
allocate ( constitutive_phenopowerlaw_Ntwin ( lattice_maxNtwinFamily , maxNinstance ) )
constitutive_phenopowerlaw_Ntwin = 0_pInt
allocate ( constitutive_phenopowerlaw_totalNslip ( maxNinstance ) )
constitutive_phenopowerlaw_totalNslip = 0_pInt
allocate ( constitutive_phenopowerlaw_totalNtwin ( maxNinstance ) )
constitutive_phenopowerlaw_totalNtwin = 0_pInt
allocate ( constitutive_phenopowerlaw_CoverA ( maxNinstance ) )
constitutive_phenopowerlaw_CoverA = 0.0_pReal
allocate ( constitutive_phenopowerlaw_Cslip_66 ( 6 , 6 , maxNinstance ) )
constitutive_phenopowerlaw_Cslip_66 = 0.0_pReal
allocate ( constitutive_phenopowerlaw_gdot0_slip ( maxNinstance ) )
constitutive_phenopowerlaw_gdot0_slip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_n_slip ( maxNinstance ) )
constitutive_phenopowerlaw_n_slip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_tau0_slip ( lattice_maxNslipFamily , maxNinstance ) )
constitutive_phenopowerlaw_tau0_slip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_tausat_slip ( lattice_maxNslipFamily , maxNinstance ) )
constitutive_phenopowerlaw_tausat_slip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_gdot0_twin ( maxNinstance ) )
constitutive_phenopowerlaw_gdot0_twin = 0.0_pReal
allocate ( constitutive_phenopowerlaw_n_twin ( maxNinstance ) )
constitutive_phenopowerlaw_n_twin = 0.0_pReal
allocate ( constitutive_phenopowerlaw_tau0_twin ( lattice_maxNtwinFamily , maxNinstance ) )
constitutive_phenopowerlaw_tau0_twin = 0.0_pReal
allocate ( constitutive_phenopowerlaw_spr ( maxNinstance ) )
constitutive_phenopowerlaw_spr = 0.0_pReal
allocate ( constitutive_phenopowerlaw_twinB ( maxNinstance ) )
constitutive_phenopowerlaw_twinB = 0.0_pReal
allocate ( constitutive_phenopowerlaw_twinC ( maxNinstance ) )
constitutive_phenopowerlaw_twinC = 0.0_pReal
allocate ( constitutive_phenopowerlaw_twinD ( maxNinstance ) )
constitutive_phenopowerlaw_twinD = 0.0_pReal
allocate ( constitutive_phenopowerlaw_twinE ( maxNinstance ) )
constitutive_phenopowerlaw_twinE = 0.0_pReal
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allocate ( constitutive_phenopowerlaw_h0_SlipSlip ( maxNinstance ) )
constitutive_phenopowerlaw_h0_SlipSlip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_h0_SlipTwin ( maxNinstance ) )
constitutive_phenopowerlaw_h0_SlipTwin = 0.0_pReal
allocate ( constitutive_phenopowerlaw_h0_TwinSlip ( maxNinstance ) )
constitutive_phenopowerlaw_h0_TwinSlip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_h0_TwinTwin ( maxNinstance ) )
constitutive_phenopowerlaw_h0_TwinTwin = 0.0_pReal
allocate ( constitutive_phenopowerlaw_interaction_SlipSlip ( lattice_maxNinteraction , maxNinstance ) )
constitutive_phenopowerlaw_interaction_SlipSlip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_interaction_SlipTwin ( lattice_maxNinteraction , maxNinstance ) )
constitutive_phenopowerlaw_interaction_SlipTwin = 0.0_pReal
allocate ( constitutive_phenopowerlaw_interaction_TwinSlip ( lattice_maxNinteraction , maxNinstance ) )
constitutive_phenopowerlaw_interaction_TwinSlip = 0.0_pReal
allocate ( constitutive_phenopowerlaw_interaction_TwinTwin ( lattice_maxNinteraction , maxNinstance ) )
constitutive_phenopowerlaw_interaction_TwinTwin = 0.0_pReal
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allocate ( constitutive_phenopowerlaw_a_slip ( maxNinstance ) )
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constitutive_phenopowerlaw_a_slip = 0.0_pReal
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allocate ( constitutive_phenopowerlaw_aTolResistance ( maxNinstance ) )
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constitutive_phenopowerlaw_aTolResistance = 0.0_pReal
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allocate ( constitutive_phenopowerlaw_aTolShear ( maxNinstance ) )
constitutive_phenopowerlaw_aTolShear = 0.0_pReal
allocate ( constitutive_phenopowerlaw_aTolTwinfrac ( maxNinstance ) )
constitutive_phenopowerlaw_aTolTwinfrac = 0.0_pReal
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allocate ( constitutive_phenopowerlaw_nonSchmidCoeff ( lattice_maxNnonSchmid , maxNinstance ) )
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constitutive_phenopowerlaw_nonSchmidCoeff = 0.0_pReal
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rewind ( myFile )
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do while ( trim ( line ) / = '#EOF#' . and . IO_lc ( IO_getTag ( line , '<' , '>' ) ) / = 'phase' ) ! wind forward to <phase>
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line = IO_read ( myFile )
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enddo
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do while ( trim ( line ) / = '#EOF#' ) ! read through sections of phase part
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line = IO_read ( myFile )
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if ( IO_isBlank ( line ) ) cycle ! skip empty lines
if ( IO_getTag ( line , '<' , '>' ) / = '' ) exit ! stop at next part
if ( IO_getTag ( line , '[' , ']' ) / = '' ) then ! next section
section = section + 1_pInt ! advance section counter
cycle ! skip to next line
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endif
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if ( section > 0_pInt ) then ! do not short-circuit here (.and. with next if-statement). It's not safe in Fortran
if ( phase_plasticity ( section ) == CONSTITUTIVE_PHENOPOWERLAW_label ) then ! one of my sections
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i = phase_plasticityInstance ( section ) ! which instance of my plasticity is present phase
positions = IO_stringPos ( line , MAXNCHUNKS )
tag = IO_lc ( IO_stringValue ( line , positions , 1_pInt ) ) ! extract key
select case ( tag )
case ( 'plasticity' , 'elasticity' )
cycle
case ( '(output)' )
constitutive_phenopowerlaw_Noutput ( i ) = constitutive_phenopowerlaw_Noutput ( i ) + 1_pInt
constitutive_phenopowerlaw_output ( constitutive_phenopowerlaw_Noutput ( i ) , i ) = &
IO_lc ( IO_stringValue ( line , positions , 2_pInt ) )
case ( 'lattice_structure' )
constitutive_phenopowerlaw_structureName ( i ) = IO_lc ( IO_stringValue ( line , positions , 2_pInt ) )
configNchunks = lattice_configNchunks ( constitutive_phenopowerlaw_structureName ( i ) )
Nchunks_SlipFamilies = configNchunks ( 1 )
Nchunks_TwinFamilies = configNchunks ( 2 )
Nchunks_SlipSlip = configNchunks ( 3 )
Nchunks_SlipTwin = configNchunks ( 4 )
Nchunks_TwinSlip = configNchunks ( 5 )
Nchunks_TwinTwin = configNchunks ( 6 )
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Nchunks_nonSchmid = configNchunks ( 7 )
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case ( 'covera_ratio' )
constitutive_phenopowerlaw_CoverA ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'c11' )
constitutive_phenopowerlaw_Cslip_66 ( 1 , 1 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 1 , 1 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c12' )
constitutive_phenopowerlaw_Cslip_66 ( 1 , 2 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 1 , 2 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c13' )
constitutive_phenopowerlaw_Cslip_66 ( 1 , 3 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 1 , 3 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c22' )
constitutive_phenopowerlaw_Cslip_66 ( 2 , 2 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 2 , 2 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c23' )
constitutive_phenopowerlaw_Cslip_66 ( 2 , 3 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 2 , 3 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c33' )
constitutive_phenopowerlaw_Cslip_66 ( 3 , 3 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 3 , 3 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c44' )
constitutive_phenopowerlaw_Cslip_66 ( 4 , 4 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 4 , 4 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c55' )
constitutive_phenopowerlaw_Cslip_66 ( 5 , 5 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 5 , 5 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'c66' )
constitutive_phenopowerlaw_Cslip_66 ( 6 , 6 , i ) = IO_floatValue ( line , positions , 2_pInt )
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if ( abs ( constitutive_phenopowerlaw_Cslip_66 ( 6 , 6 , i ) ) < tol_math_check ) &
call IO_error ( 214_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'nslip' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_SlipFamilies ) then
call IO_warning ( 50_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
endif
Nchunks_SlipFamilies = positions ( 1 ) - 1_pInt
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do j = 1_pInt , Nchunks_SlipFamilies
constitutive_phenopowerlaw_Nslip ( j , i ) = IO_intValue ( line , positions , 1_pInt + j )
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enddo
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case ( 'gdot0_slip' )
constitutive_phenopowerlaw_gdot0_slip ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'n_slip' )
constitutive_phenopowerlaw_n_slip ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'tau0_slip' )
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do j = 1_pInt , Nchunks_SlipFamilies
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constitutive_phenopowerlaw_tau0_slip ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 'tausat_slip' )
do j = 1_pInt , Nchunks_SlipFamilies
constitutive_phenopowerlaw_tausat_slip ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 'a_slip' , 'w0_slip' )
constitutive_phenopowerlaw_a_slip ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'ntwin' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_TwinFamilies ) then
call IO_warning ( 51_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
endif
Nchunks_TwinFamilies = positions ( 1 ) - 1_pInt
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do j = 1_pInt , Nchunks_TwinFamilies
constitutive_phenopowerlaw_Ntwin ( j , i ) = IO_intValue ( line , positions , 1_pInt + j )
enddo
case ( 'gdot0_twin' )
constitutive_phenopowerlaw_gdot0_twin ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'n_twin' )
constitutive_phenopowerlaw_n_twin ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'tau0_twin' )
do j = 1_pInt , Nchunks_TwinFamilies
constitutive_phenopowerlaw_tau0_twin ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 's_pr' )
constitutive_phenopowerlaw_spr ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'twin_b' )
constitutive_phenopowerlaw_twinB ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'twin_c' )
constitutive_phenopowerlaw_twinC ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'twin_d' )
constitutive_phenopowerlaw_twinD ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'twin_e' )
constitutive_phenopowerlaw_twinE ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'h0_slipslip' )
constitutive_phenopowerlaw_h0_SlipSlip ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'h0_sliptwin' )
constitutive_phenopowerlaw_h0_SlipTwin ( i ) = IO_floatValue ( line , positions , 2_pInt )
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call IO_warning ( 42_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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case ( 'h0_twinslip' )
constitutive_phenopowerlaw_h0_TwinSlip ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'h0_twintwin' )
constitutive_phenopowerlaw_h0_TwinTwin ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'atol_resistance' )
constitutive_phenopowerlaw_aTolResistance ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'atol_shear' )
constitutive_phenopowerlaw_aTolShear ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'atol_twinfrac' )
constitutive_phenopowerlaw_aTolTwinfrac ( i ) = IO_floatValue ( line , positions , 2_pInt )
case ( 'interaction_slipslip' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_SlipSlip ) &
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call IO_error ( 213_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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do j = 1_pInt , Nchunks_SlipSlip
constitutive_phenopowerlaw_interaction_SlipSlip ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 'interaction_sliptwin' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_SlipTwin ) &
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call IO_error ( 213_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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do j = 1_pInt , Nchunks_SlipTwin
constitutive_phenopowerlaw_interaction_SlipTwin ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 'interaction_twinslip' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_TwinSlip ) &
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call IO_error ( 213_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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do j = 1_pInt , Nchunks_TwinSlip
constitutive_phenopowerlaw_interaction_TwinSlip ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 'interaction_twintwin' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_TwinTwin ) &
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call IO_error ( 213_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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do j = 1_pInt , Nchunks_TwinTwin
constitutive_phenopowerlaw_interaction_TwinTwin ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case ( 'nonschmid_coefficients' )
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if ( positions ( 1 ) < 1_pInt + Nchunks_nonSchmid ) &
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call IO_error ( 213_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
do j = 1_pInt , Nchunks_nonSchmid
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constitutive_phenopowerlaw_nonSchmidCoeff ( j , i ) = IO_floatValue ( line , positions , 1_pInt + j )
enddo
case default
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call IO_error ( 210_pInt , ext_msg = trim ( tag ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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end select
endif
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endif
enddo
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sanityChecks : do i = 1_pInt , maxNinstance
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constitutive_phenopowerlaw_structure ( i ) = lattice_initializeStructure ( constitutive_phenopowerlaw_structureName ( i ) , & ! get structure
constitutive_phenopowerlaw_CoverA ( i ) )
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constitutive_phenopowerlaw_Nslip ( 1 : lattice_maxNslipFamily , i ) = &
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min ( lattice_NslipSystem ( 1 : lattice_maxNslipFamily , constitutive_phenopowerlaw_structure ( i ) ) , & ! limit active slip systems per family to min of available and requested
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constitutive_phenopowerlaw_Nslip ( 1 : lattice_maxNslipFamily , i ) )
constitutive_phenopowerlaw_Ntwin ( 1 : lattice_maxNtwinFamily , i ) = &
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min ( lattice_NtwinSystem ( 1 : lattice_maxNtwinFamily , constitutive_phenopowerlaw_structure ( i ) ) , & ! limit active twin systems per family to min of available and requested
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constitutive_phenopowerlaw_Ntwin ( : , i ) )
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constitutive_phenopowerlaw_totalNslip ( i ) = sum ( constitutive_phenopowerlaw_Nslip ( : , i ) ) ! how many slip systems altogether
constitutive_phenopowerlaw_totalNtwin ( i ) = sum ( constitutive_phenopowerlaw_Ntwin ( : , i ) ) ! how many twin systems altogether
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if ( constitutive_phenopowerlaw_structure ( i ) < 1 ) call IO_error ( 205_pInt , el = i )
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if ( any ( constitutive_phenopowerlaw_tau0_slip ( : , i ) < 0.0_pReal . and . &
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constitutive_phenopowerlaw_Nslip ( : , i ) > 0 ) ) call IO_error ( 211_pInt , el = i , ext_msg = 'tau0_slip (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( constitutive_phenopowerlaw_gdot0_slip ( i ) < = 0.0_pReal ) call IO_error ( 211_pInt , el = i , ext_msg = 'gdot0_slip (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( constitutive_phenopowerlaw_n_slip ( i ) < = 0.0_pReal ) call IO_error ( 211_pInt , el = i , ext_msg = 'n_slip (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( any ( constitutive_phenopowerlaw_tausat_slip ( : , i ) < = 0.0_pReal . and . &
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constitutive_phenopowerlaw_Nslip ( : , i ) > 0 ) ) call IO_error ( 211_pInt , el = i , ext_msg = 'tausat_slip (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( any ( constitutive_phenopowerlaw_a_slip ( i ) == 0.0_pReal . and . &
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constitutive_phenopowerlaw_Nslip ( : , i ) > 0 ) ) call IO_error ( 211_pInt , el = i , ext_msg = 'a_slip (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( any ( constitutive_phenopowerlaw_tau0_twin ( : , i ) < 0.0_pReal . and . &
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constitutive_phenopowerlaw_Ntwin ( : , i ) > 0 ) ) call IO_error ( 211_pInt , el = i , ext_msg = 'tau0_twin (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( constitutive_phenopowerlaw_gdot0_twin ( i ) < = 0.0_pReal . and . &
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any ( constitutive_phenopowerlaw_Ntwin ( : , i ) > 0 ) ) call IO_error ( 211_pInt , el = i , ext_msg = 'gdot0_twin (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( constitutive_phenopowerlaw_n_twin ( i ) < = 0.0_pReal . and . &
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any ( constitutive_phenopowerlaw_Ntwin ( : , i ) > 0 ) ) call IO_error ( 211_pInt , el = i , ext_msg = 'n_twin (' &
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/ / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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if ( constitutive_phenopowerlaw_aTolResistance ( i ) < = 0.0_pReal ) &
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constitutive_phenopowerlaw_aTolResistance ( i ) = 1.0_pReal ! default absolute tolerance 1 Pa
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if ( constitutive_phenopowerlaw_aTolShear ( i ) < = 0.0_pReal ) &
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constitutive_phenopowerlaw_aTolShear ( i ) = 1.0e-6_pReal ! default absolute tolerance 1e-6
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if ( constitutive_phenopowerlaw_aTolTwinfrac ( i ) < = 0.0_pReal ) &
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constitutive_phenopowerlaw_aTolTwinfrac ( i ) = 1.0e-6_pReal ! default absolute tolerance 1e-6
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enddo sanityChecks
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!--------------------------------------------------------------------------------------------------
! allocation of variables whose size depends on the total number of active slip systems
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allocate ( constitutive_phenopowerlaw_hardeningMatrix_SlipSlip ( maxval ( constitutive_phenopowerlaw_totalNslip ) , & ! slip resistance from slip activity
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maxval ( constitutive_phenopowerlaw_totalNslip ) , &
maxNinstance ) )
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allocate ( constitutive_phenopowerlaw_hardeningMatrix_SlipTwin ( maxval ( constitutive_phenopowerlaw_totalNslip ) , & ! slip resistance from twin activity
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maxval ( constitutive_phenopowerlaw_totalNtwin ) , &
maxNinstance ) )
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allocate ( constitutive_phenopowerlaw_hardeningMatrix_TwinSlip ( maxval ( constitutive_phenopowerlaw_totalNtwin ) , & ! twin resistance from slip activity
maxval ( constitutive_phenopowerlaw_totalNslip ) , &
maxNinstance ) )
allocate ( constitutive_phenopowerlaw_hardeningMatrix_TwinTwin ( maxval ( constitutive_phenopowerlaw_totalNtwin ) , & ! twin resistance from twin activity
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maxval ( constitutive_phenopowerlaw_totalNtwin ) , &
maxNinstance ) )
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constitutive_phenopowerlaw_hardeningMatrix_SlipSlip = 0.0_pReal
constitutive_phenopowerlaw_hardeningMatrix_SlipTwin = 0.0_pReal
constitutive_phenopowerlaw_hardeningMatrix_TwinSlip = 0.0_pReal
constitutive_phenopowerlaw_hardeningMatrix_TwinTwin = 0.0_pReal
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instancesLoop : do i = 1_pInt , maxNinstance
outputsLoop : do o = 1_pInt , constitutive_phenopowerlaw_Noutput ( i )
select case ( constitutive_phenopowerlaw_output ( o , i ) )
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case ( 'resistance_slip' , &
'shearrate_slip' , &
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'accumulatedshear_slip' , &
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'resolvedstress_slip' &
)
mySize = constitutive_phenopowerlaw_totalNslip ( i )
case ( 'resistance_twin' , &
'shearrate_twin' , &
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'accumulatedshear_twin' , &
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'resolvedstress_twin' &
)
mySize = constitutive_phenopowerlaw_totalNtwin ( i )
case ( 'totalshear' , &
'totalvolfrac' &
)
mySize = 1_pInt
case default
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call IO_error ( 212_pInt , ext_msg = constitutive_phenopowerlaw_output ( o , i ) / / ' (' / / CONSTITUTIVE_PHENOPOWERLAW_label / / ')' )
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end select
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if ( mySize > 0_pInt ) then ! any meaningful output found
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constitutive_phenopowerlaw_sizePostResult ( o , i ) = mySize
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constitutive_phenopowerlaw_sizePostResults ( i ) = &
constitutive_phenopowerlaw_sizePostResults ( i ) + mySize
endif
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enddo outputsLoop
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constitutive_phenopowerlaw_sizeDotState ( i ) = constitutive_phenopowerlaw_totalNslip ( i ) + &
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constitutive_phenopowerlaw_totalNtwin ( i ) + &
2_pInt + &
constitutive_phenopowerlaw_totalNslip ( i ) + &
constitutive_phenopowerlaw_totalNtwin ( i ) ! s_slip, s_twin, sum(gamma), sum(f), accshear_slip, accshear_twin
constitutive_phenopowerlaw_sizeState ( i ) = constitutive_phenopowerlaw_sizeDotState ( i )
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myStructure = constitutive_phenopowerlaw_structure ( i )
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constitutive_phenopowerlaw_Cslip_66 ( : , : , i ) = lattice_symmetrizeC66 ( constitutive_phenopowerlaw_structureName ( i ) , &
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constitutive_phenopowerlaw_Cslip_66 ( : , : , i ) )
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! assign elasticity tensor
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constitutive_phenopowerlaw_Cslip_66 ( : , : , i ) = &
math_Mandel3333to66 ( math_Voigt66to3333 ( constitutive_phenopowerlaw_Cslip_66 ( : , : , i ) ) )
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do f = 1_pInt , lattice_maxNslipFamily ! >>> interaction slip -- X
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index_myFamily = sum ( constitutive_phenopowerlaw_Nslip ( 1 : f - 1_pInt , i ) )
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do j = 1_pInt , constitutive_phenopowerlaw_Nslip ( f , i ) ! loop over (active) systems in my family (slip)
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do o = 1_pInt , lattice_maxNslipFamily
index_otherFamily = sum ( constitutive_phenopowerlaw_Nslip ( 1 : o - 1_pInt , i ) )
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do k = 1_pInt , constitutive_phenopowerlaw_Nslip ( o , i ) ! loop over (active) systems in other family (slip)
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constitutive_phenopowerlaw_hardeningMatrix_SlipSlip ( index_myFamily + j , index_otherFamily + k , i ) = &
constitutive_phenopowerlaw_interaction_SlipSlip ( lattice_interactionSlipSlip ( &
sum ( lattice_NslipSystem ( 1 : f - 1 , myStructure ) ) + j , &
sum ( lattice_NslipSystem ( 1 : o - 1 , myStructure ) ) + k , &
myStructure ) , i )
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enddo ; enddo
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do o = 1_pInt , lattice_maxNtwinFamily
index_otherFamily = sum ( constitutive_phenopowerlaw_Ntwin ( 1 : o - 1_pInt , i ) )
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do k = 1_pInt , constitutive_phenopowerlaw_Ntwin ( o , i ) ! loop over (active) systems in other family (twin)
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constitutive_phenopowerlaw_hardeningMatrix_SlipTwin ( index_myFamily + j , index_otherFamily + k , i ) = &
constitutive_phenopowerlaw_interaction_SlipTwin ( lattice_interactionSlipTwin ( &
sum ( lattice_NslipSystem ( 1 : f - 1_pInt , myStructure ) ) + j , &
sum ( lattice_NtwinSystem ( 1 : o - 1_pInt , myStructure ) ) + k , &
myStructure ) , i )
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enddo ; enddo
enddo ; enddo
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do f = 1_pInt , lattice_maxNtwinFamily ! >>> interaction twin -- X
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index_myFamily = sum ( constitutive_phenopowerlaw_Ntwin ( 1 : f - 1_pInt , i ) )
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do j = 1_pInt , constitutive_phenopowerlaw_Ntwin ( f , i ) ! loop over (active) systems in my family (twin)
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do o = 1_pInt , lattice_maxNslipFamily
index_otherFamily = sum ( constitutive_phenopowerlaw_Nslip ( 1 : o - 1_pInt , i ) )
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do k = 1_pInt , constitutive_phenopowerlaw_Nslip ( o , i ) ! loop over (active) systems in other family (slip)
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constitutive_phenopowerlaw_hardeningMatrix_TwinSlip ( index_myFamily + j , index_otherFamily + k , i ) = &
constitutive_phenopowerlaw_interaction_TwinSlip ( lattice_interactionTwinSlip ( &
sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , myStructure ) ) + j , &
sum ( lattice_NslipSystem ( 1 : o - 1_pInt , myStructure ) ) + k , &
myStructure ) , i )
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enddo ; enddo
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do o = 1_pInt , lattice_maxNtwinFamily
index_otherFamily = sum ( constitutive_phenopowerlaw_Ntwin ( 1 : o - 1_pInt , i ) )
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do k = 1_pInt , constitutive_phenopowerlaw_Ntwin ( o , i ) ! loop over (active) systems in other family (twin)
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constitutive_phenopowerlaw_hardeningMatrix_TwinTwin ( index_myFamily + j , index_otherFamily + k , i ) = &
constitutive_phenopowerlaw_interaction_TwinTwin ( lattice_interactionTwinTwin ( &
sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , myStructure ) ) + j , &
sum ( lattice_NtwinSystem ( 1 : o - 1_pInt , myStructure ) ) + k , &
myStructure ) , i )
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enddo ; enddo
enddo ; enddo
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enddo instancesLoop
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end subroutine constitutive_phenopowerlaw_init
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!--------------------------------------------------------------------------------------------------
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!> @brief sets the initial microstructural state for a given instance of this plasticity
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!--------------------------------------------------------------------------------------------------
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pure function constitutive_phenopowerlaw_stateInit ( myInstance )
use lattice , only : &
lattice_maxNslipFamily , &
lattice_maxNtwinFamily
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implicit none
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integer ( pInt ) , intent ( in ) :: &
myInstance !< number specifying the instance of the plasticity
real ( pReal ) , dimension ( constitutive_phenopowerlaw_sizeDotState ( myInstance ) ) :: &
constitutive_phenopowerlaw_stateInit
integer ( pInt ) :: &
i
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constitutive_phenopowerlaw_stateInit = 0.0_pReal
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do i = 1_pInt , lattice_maxNslipFamily
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constitutive_phenopowerlaw_stateInit ( 1 + &
sum ( constitutive_phenopowerlaw_Nslip ( 1 : i - 1 , myInstance ) ) : &
sum ( constitutive_phenopowerlaw_Nslip ( 1 : i , myInstance ) ) ) = &
constitutive_phenopowerlaw_tau0_slip ( i , myInstance )
enddo
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do i = 1_pInt , lattice_maxNtwinFamily
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constitutive_phenopowerlaw_stateInit ( 1 + sum ( constitutive_phenopowerlaw_Nslip ( : , myInstance ) ) + &
sum ( constitutive_phenopowerlaw_Ntwin ( 1 : i - 1 , myInstance ) ) : &
sum ( constitutive_phenopowerlaw_Nslip ( : , myInstance ) ) + &
sum ( constitutive_phenopowerlaw_Ntwin ( 1 : i , myInstance ) ) ) = &
constitutive_phenopowerlaw_tau0_twin ( i , myInstance )
enddo
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end function constitutive_phenopowerlaw_stateInit
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!--------------------------------------------------------------------------------------------------
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!> @brief sets the relevant state values for a given instance of this plasticity
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!--------------------------------------------------------------------------------------------------
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pure function constitutive_phenopowerlaw_aTolState ( myInstance )
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implicit none
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integer ( pInt ) , intent ( in ) :: myInstance !< number specifying the instance of the plasticity
real ( pReal ) , dimension ( constitutive_phenopowerlaw_sizeState ( myInstance ) ) :: &
constitutive_phenopowerlaw_aTolState
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constitutive_phenopowerlaw_aTolState ( 1 : constitutive_phenopowerlaw_totalNslip ( myInstance ) + &
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constitutive_phenopowerlaw_totalNtwin ( myInstance ) ) = &
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constitutive_phenopowerlaw_aTolResistance ( myInstance )
constitutive_phenopowerlaw_aTolState ( 1 + constitutive_phenopowerlaw_totalNslip ( myInstance ) + &
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constitutive_phenopowerlaw_totalNtwin ( myInstance ) ) = &
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constitutive_phenopowerlaw_aTolShear ( myInstance )
constitutive_phenopowerlaw_aTolState ( 2 + constitutive_phenopowerlaw_totalNslip ( myInstance ) + &
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constitutive_phenopowerlaw_totalNtwin ( myInstance ) ) = &
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constitutive_phenopowerlaw_aTolTwinFrac ( myInstance )
constitutive_phenopowerlaw_aTolState ( 3 + constitutive_phenopowerlaw_totalNslip ( myInstance ) + &
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constitutive_phenopowerlaw_totalNtwin ( myInstance ) : &
2 + 2 * ( constitutive_phenopowerlaw_totalNslip ( myInstance ) + &
constitutive_phenopowerlaw_totalNtwin ( myInstance ) ) ) = &
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constitutive_phenopowerlaw_aTolShear ( myInstance )
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end function constitutive_phenopowerlaw_aTolState
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!--------------------------------------------------------------------------------------------------
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!> @brief returns the homogenized elasticity matrix
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!--------------------------------------------------------------------------------------------------
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pure function constitutive_phenopowerlaw_homogenizedC ( state , ipc , ip , el )
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use prec , only : &
p_vec
use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
homogenization_maxNgrains , &
material_phase , &
phase_plasticityInstance
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implicit none
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real ( pReal ) , dimension ( 6 , 6 ) :: &
constitutive_phenopowerlaw_homogenizedC
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integer ( pInt ) , intent ( in ) :: &
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ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
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type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
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state !< microstructure state
constitutive_phenopowerlaw_homogenizedC = constitutive_phenopowerlaw_Cslip_66 ( 1 : 6 , 1 : 6 , &
phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) )
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end function constitutive_phenopowerlaw_homogenizedC
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates derived quantities from state
!> @details dummy subroutine, does nothing
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!--------------------------------------------------------------------------------------------------
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pure subroutine constitutive_phenopowerlaw_microstructure ( temperature , state , ipc , ip , el )
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use prec , only : &
p_vec
use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
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homogenization_maxNgrains
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implicit none
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integer ( pInt ) , intent ( in ) :: &
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ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
real ( pReal ) , intent ( in ) :: &
temperature !< temperature at IP
type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
state !< microstructure state
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end subroutine constitutive_phenopowerlaw_microstructure
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates plastic velocity gradient and its tangent
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!--------------------------------------------------------------------------------------------------
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pure subroutine constitutive_phenopowerlaw_LpAndItsTangent ( Lp , dLp_dTstar99 , Tstar_v , &
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temperature , state , ipc , ip , el )
use prec , only : &
p_vec
use math , only : &
math_Plain3333to99 , &
math_Mandel6to33
use lattice , only : &
lattice_Sslip , &
lattice_Sslip_v , &
lattice_Stwin , &
lattice_Stwin_v , &
lattice_maxNslipFamily , &
lattice_maxNtwinFamily , &
lattice_NslipSystem , &
lattice_NtwinSystem , &
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lattice_NnonSchmid
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use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
homogenization_maxNgrains , &
material_phase , &
phase_plasticityInstance
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implicit none
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real ( pReal ) , dimension ( 3 , 3 ) , intent ( out ) :: &
Lp !< plastic velocity gradient
real ( pReal ) , dimension ( 9 , 9 ) , intent ( out ) :: &
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dLp_dTstar99 !< derivative of Lp with respect to 2nd Piola Kirchhoff stress
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real ( pReal ) , dimension ( 6 ) , intent ( in ) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
real ( pReal ) , intent ( in ) :: &
temperature !< temperature at IP
integer ( pInt ) , intent ( in ) :: &
ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
state !< microstructure state
integer ( pInt ) :: &
matID , &
nSlip , &
nTwin , structID , index_Gamma , index_F , index_myFamily , &
f , i , j , k , l , m , n
real ( pReal ) , dimension ( 3 , 3 , 3 , 3 ) :: &
dLp_dTstar3333 !< derivative of Lp with respect to Tstar as 4th order tensor
real ( pReal ) , dimension ( 3 , 3 , 2 ) :: &
nonSchmid_tensor
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real ( pReal ) , dimension ( constitutive_phenopowerlaw_totalNslip ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
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gdot_slip_pos , gdot_slip_neg , dgdot_dtauslip_pos , dgdot_dtauslip_neg , tau_slip_pos , tau_slip_neg
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real ( pReal ) , dimension ( constitutive_phenopowerlaw_totalNtwin ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
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gdot_twin , dgdot_dtautwin , tau_twin
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matID = phase_plasticityInstance ( material_phase ( ipc , ip , el ) )
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structID = constitutive_phenopowerlaw_structure ( matID )
nSlip = constitutive_phenopowerlaw_totalNslip ( matID )
nTwin = constitutive_phenopowerlaw_totalNtwin ( matID )
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index_Gamma = nSlip + nTwin + 1_pInt
index_F = nSlip + nTwin + 2_pInt
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Lp = 0.0_pReal
dLp_dTstar3333 = 0.0_pReal
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dLp_dTstar99 = 0.0_pReal
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j = 0_pInt
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slipFamiliesLoop : do f = 1_pInt , lattice_maxNslipFamily
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index_myFamily = sum ( lattice_NslipSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Nslip ( f , matID ) ! process each (active) slip system in family
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j = j + 1_pInt
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!--------------------------------------------------------------------------------------------------
! Calculation of Lp
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tau_slip_pos ( j ) = dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 1 , index_myFamily + i , structID ) )
tau_slip_neg ( j ) = tau_slip_pos ( j )
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nonSchmid_tensor ( 1 : 3 , 1 : 3 , 1 ) = lattice_Sslip ( 1 : 3 , 1 : 3 , 1 , index_myFamily + i , structID )
nonSchmid_tensor ( 1 : 3 , 1 : 3 , 2 ) = nonSchmid_tensor ( 1 : 3 , 1 : 3 , 1 )
do k = 1 , lattice_NnonSchmid ( structID )
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tau_slip_pos ( j ) = tau_slip_pos ( j ) + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 2 * k , index_myFamily + i , structID ) )
tau_slip_neg ( j ) = tau_slip_neg ( j ) + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 2 * k + 1 , index_myFamily + i , structID ) )
nonSchmid_tensor ( 1 : 3 , 1 : 3 , 1 ) = nonSchmid_tensor ( 1 : 3 , 1 : 3 , 1 ) + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
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lattice_Sslip ( 1 : 3 , 1 : 3 , 2 * k , index_myFamily + i , structID )
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nonSchmid_tensor ( 1 : 3 , 1 : 3 , 2 ) = nonSchmid_tensor ( 1 : 3 , 1 : 3 , 2 ) + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
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lattice_Sslip ( 1 : 3 , 1 : 3 , 2 * k + 1 , index_myFamily + i , structID )
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enddo
gdot_slip_pos ( j ) = 0.5_pReal * constitutive_phenopowerlaw_gdot0_slip ( matID ) * &
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( ( abs ( tau_slip_pos ( j ) ) / state ( ipc , ip , el ) % p ( j ) ) ** constitutive_phenopowerlaw_n_slip ( matID ) ) * &
sign ( 1.0_pReal , tau_slip_pos ( j ) )
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gdot_slip_neg ( j ) = 0.5_pReal * constitutive_phenopowerlaw_gdot0_slip ( matID ) * &
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( ( abs ( tau_slip_neg ( j ) ) / state ( ipc , ip , el ) % p ( j ) ) ** constitutive_phenopowerlaw_n_slip ( matID ) ) * &
sign ( 1.0_pReal , tau_slip_neg ( j ) )
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Lp = Lp + ( 1.0_pReal - state ( ipc , ip , el ) % p ( index_F ) ) * & ! 1-F
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( gdot_slip_pos ( j ) + gdot_slip_neg ( j ) ) * lattice_Sslip ( 1 : 3 , 1 : 3 , 1 , index_myFamily + i , structID )
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!--------------------------------------------------------------------------------------------------
! Calculation of the tangent of Lp
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if ( gdot_slip_pos ( j ) / = 0.0_pReal ) then
dgdot_dtauslip_pos ( j ) = gdot_slip_pos ( j ) * constitutive_phenopowerlaw_n_slip ( matID ) / tau_slip_pos ( j )
forall ( k = 1_pInt : 3_pInt , l = 1_pInt : 3_pInt , m = 1_pInt : 3_pInt , n = 1_pInt : 3_pInt ) &
dLp_dTstar3333 ( k , l , m , n ) = dLp_dTstar3333 ( k , l , m , n ) + &
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dgdot_dtauslip_pos ( j ) * lattice_Sslip ( k , l , 1 , index_myFamily + i , structID ) * &
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nonSchmid_tensor ( m , n , 1 )
endif
if ( gdot_slip_neg ( j ) / = 0.0_pReal ) then
dgdot_dtauslip_neg ( j ) = gdot_slip_neg ( j ) * constitutive_phenopowerlaw_n_slip ( matID ) / tau_slip_neg ( j )
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forall ( k = 1_pInt : 3_pInt , l = 1_pInt : 3_pInt , m = 1_pInt : 3_pInt , n = 1_pInt : 3_pInt ) &
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dLp_dTstar3333 ( k , l , m , n ) = dLp_dTstar3333 ( k , l , m , n ) + &
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dgdot_dtauslip_neg ( j ) * lattice_Sslip ( k , l , 1 , index_myFamily + i , structID ) * &
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nonSchmid_tensor ( m , n , 2 )
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endif
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enddo
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enddo slipFamiliesLoop
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j = 0_pInt
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twinFamiliesLoop : do f = 1_pInt , lattice_maxNtwinFamily
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index_myFamily = sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Ntwin ( f , matID ) ! process each (active) twin system in family
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j = j + 1_pInt
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!--------------------------------------------------------------------------------------------------
! Calculation of Lp
openmp parallelization working again (at least for j2 and nonlocal constitutive model).
In order to keep it like that, please follow these simple rules:
DON'T use implicit array subscripts:
example: real, dimension(3,3) :: A,B
A(:,2) = B(:,1) <--- DON'T USE
A(1:3,2) = B(1:3,1) <--- BETTER USE
In many cases the use of explicit array subscripts is inevitable for parallelization. Additionally, it is an easy means to prevent memory leaks.
Enclose all write statements with the following:
!$OMP CRITICAL (write2out)
<your write statement>
!$OMP END CRITICAL (write2out)
Whenever you change something in the code and are not sure if it affects parallelization and leads to nonconforming behavior, please ask me and/or Franz to check this.
2011-03-17 16:16:17 +05:30
tau_twin ( j ) = dot_product ( Tstar_v , lattice_Stwin_v ( 1 : 6 , index_myFamily + i , structID ) )
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gdot_twin ( j ) = ( 1.0_pReal - state ( ipc , ip , el ) % p ( index_F ) ) * & ! 1-F
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constitutive_phenopowerlaw_gdot0_twin ( matID ) * &
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( abs ( tau_twin ( j ) ) / state ( ipc , ip , el ) % p ( nSlip + j ) ) ** &
constitutive_phenopowerlaw_n_twin ( matID ) * max ( 0.0_pReal , sign ( 1.0_pReal , tau_twin ( j ) ) )
openmp parallelization working again (at least for j2 and nonlocal constitutive model).
In order to keep it like that, please follow these simple rules:
DON'T use implicit array subscripts:
example: real, dimension(3,3) :: A,B
A(:,2) = B(:,1) <--- DON'T USE
A(1:3,2) = B(1:3,1) <--- BETTER USE
In many cases the use of explicit array subscripts is inevitable for parallelization. Additionally, it is an easy means to prevent memory leaks.
Enclose all write statements with the following:
!$OMP CRITICAL (write2out)
<your write statement>
!$OMP END CRITICAL (write2out)
Whenever you change something in the code and are not sure if it affects parallelization and leads to nonconforming behavior, please ask me and/or Franz to check this.
2011-03-17 16:16:17 +05:30
Lp = Lp + gdot_twin ( j ) * lattice_Stwin ( 1 : 3 , 1 : 3 , index_myFamily + i , structID )
2009-07-22 21:37:19 +05:30
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!--------------------------------------------------------------------------------------------------
! Calculation of the tangent of Lp
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if ( gdot_twin ( j ) / = 0.0_pReal ) then
dgdot_dtautwin ( j ) = gdot_twin ( j ) * constitutive_phenopowerlaw_n_twin ( matID ) / tau_twin ( j )
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forall ( k = 1_pInt : 3_pInt , l = 1_pInt : 3_pInt , m = 1_pInt : 3_pInt , n = 1_pInt : 3_pInt ) &
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dLp_dTstar3333 ( k , l , m , n ) = dLp_dTstar3333 ( k , l , m , n ) + &
dgdot_dtautwin ( j ) * lattice_Stwin ( k , l , index_myFamily + i , structID ) * &
lattice_Stwin ( m , n , index_myFamily + i , structID )
endif
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enddo
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enddo twinFamiliesLoop
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dLp_dTstar99 = math_Plain3333to99 ( dLp_dTstar3333 )
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end subroutine constitutive_phenopowerlaw_LpAndItsTangent
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates the rate of change of microstructure
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!--------------------------------------------------------------------------------------------------
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function constitutive_phenopowerlaw_dotState ( Tstar_v , temperature , state , ipc , ip , el )
use prec , only : &
p_vec
use lattice , only : &
lattice_Sslip_v , &
lattice_Stwin_v , &
lattice_maxNslipFamily , &
lattice_maxNtwinFamily , &
lattice_NslipSystem , &
lattice_NtwinSystem , &
lattice_shearTwin , &
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lattice_NnonSchmid
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use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
homogenization_maxNgrains , &
material_phase , &
phase_plasticityInstance
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2009-07-22 21:37:19 +05:30
implicit none
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real ( pReal ) , dimension ( 6 ) , intent ( in ) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
real ( pReal ) , intent ( in ) :: &
temperature !< temperature at integration point
integer ( pInt ) , intent ( in ) :: &
ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
state !< microstructure state
real ( pReal ) , dimension ( constitutive_phenopowerlaw_sizeDotState ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
constitutive_phenopowerlaw_dotState
integer ( pInt ) :: matID , nSlip , nTwin , f , i , j , k , structID , &
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index_Gamma , index_F , offset_accshear_slip , offset_accshear_twin , index_myFamily
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real ( pReal ) :: c_SlipSlip , c_SlipTwin , c_TwinSlip , c_TwinTwin , ssat_offset
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real ( pReal ) , dimension ( constitutive_phenopowerlaw_totalNslip ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
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gdot_slip , tau_slip_pos , tau_slip_neg , left_SlipSlip , left_SlipTwin , right_SlipSlip , right_TwinSlip
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real ( pReal ) , dimension ( constitutive_phenopowerlaw_totalNtwin ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
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gdot_twin , tau_twin , left_TwinSlip , left_TwinTwin , right_SlipTwin , right_TwinTwin
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matID = phase_plasticityInstance ( material_phase ( ipc , ip , el ) )
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structID = constitutive_phenopowerlaw_structure ( matID )
nSlip = constitutive_phenopowerlaw_totalNslip ( matID )
nTwin = constitutive_phenopowerlaw_totalNtwin ( matID )
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index_Gamma = nSlip + nTwin + 1_pInt
index_F = nSlip + nTwin + 2_pInt
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offset_accshear_slip = nSlip + nTwin + 2_pInt
offset_accshear_twin = nSlip + nTwin + 2_pInt + nSlip
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constitutive_phenopowerlaw_dotState = 0.0_pReal
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!--------------------------------------------------------------------------------------------------
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! system-independent (nonlinear) prefactors to M_Xx (X influenced by x) matrices
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c_SlipSlip = constitutive_phenopowerlaw_h0_SlipSlip ( matID ) * &
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( 1.0_pReal + constitutive_phenopowerlaw_twinC ( matID ) * state ( ipc , ip , el ) % p ( index_F ) ** &
constitutive_phenopowerlaw_twinB ( matID ) )
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c_SlipTwin = 0.0_pReal
c_TwinSlip = constitutive_phenopowerlaw_h0_TwinSlip ( matID ) * &
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state ( ipc , ip , el ) % p ( index_Gamma ) ** constitutive_phenopowerlaw_twinE ( matID )
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c_TwinTwin = constitutive_phenopowerlaw_h0_TwinTwin ( matID ) * &
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state ( ipc , ip , el ) % p ( index_F ) ** constitutive_phenopowerlaw_twinD ( matID )
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!--------------------------------------------------------------------------------------------------
! calculate left and right vectors and calculate dot gammas
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ssat_offset = constitutive_phenopowerlaw_spr ( matID ) * sqrt ( state ( ipc , ip , el ) % p ( index_F ) )
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j = 0_pInt
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slipFamiliesLoop1 : do f = 1_pInt , lattice_maxNslipFamily
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index_myFamily = sum ( lattice_NslipSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Nslip ( f , matID ) ! process each (active) slip system in family
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j = j + 1_pInt
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left_SlipSlip ( j ) = 1.0_pReal ! no system-dependent left part
left_SlipTwin ( j ) = 1.0_pReal ! no system-dependent left part
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right_SlipSlip ( j ) = abs ( 1.0_pReal - state ( ipc , ip , el ) % p ( j ) / &
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( constitutive_phenopowerlaw_tausat_slip ( f , matID ) + ssat_offset ) ) &
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** constitutive_phenopowerlaw_a_slip ( matID ) &
* sign ( 1.0_pReal , 1.0_pReal - state ( ipc , ip , el ) % p ( j ) / &
( constitutive_phenopowerlaw_tausat_slip ( f , matID ) + ssat_offset ) )
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right_TwinSlip ( j ) = 1.0_pReal ! no system-dependent part
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!--------------------------------------------------------------------------------------------------
! Calculation of dot gamma
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tau_slip_pos ( j ) = dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 1 , index_myFamily + i , structID ) )
tau_slip_neg ( j ) = tau_slip_pos ( j )
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do k = 1 , lattice_NnonSchmid ( structID )
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tau_slip_pos ( j ) = tau_slip_pos ( j ) + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 2 * k , index_myFamily + i , structID ) )
tau_slip_neg ( j ) = tau_slip_neg ( j ) + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 2 * k + 1 , index_myFamily + i , structID ) )
enddo
gdot_slip ( j ) = constitutive_phenopowerlaw_gdot0_slip ( matID ) * 0.5_pReal * &
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( ( abs ( tau_slip_pos ( j ) ) / state ( ipc , ip , el ) % p ( j ) ) ** constitutive_phenopowerlaw_n_slip ( matID ) &
+ ( abs ( tau_slip_neg ( j ) ) / state ( ipc , ip , el ) % p ( j ) ) ** constitutive_phenopowerlaw_n_slip ( matID ) ) &
* sign ( 1.0_pReal , tau_slip_pos ( j ) )
enddo
enddo slipFamiliesLoop1
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j = 0_pInt
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twinFamiliesLoop1 : do f = 1_pInt , lattice_maxNtwinFamily
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index_myFamily = sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Ntwin ( f , matID ) ! process each (active) twin system in family
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j = j + 1_pInt
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left_TwinSlip ( j ) = 1.0_pReal ! no system-dependent right part
left_TwinTwin ( j ) = 1.0_pReal ! no system-dependent right part
right_SlipTwin ( j ) = 1.0_pReal ! no system-dependent right part
right_TwinTwin ( j ) = 1.0_pReal ! no system-dependent right part
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!--------------------------------------------------------------------------------------------------
! Calculation of dot vol frac
openmp parallelization working again (at least for j2 and nonlocal constitutive model).
In order to keep it like that, please follow these simple rules:
DON'T use implicit array subscripts:
example: real, dimension(3,3) :: A,B
A(:,2) = B(:,1) <--- DON'T USE
A(1:3,2) = B(1:3,1) <--- BETTER USE
In many cases the use of explicit array subscripts is inevitable for parallelization. Additionally, it is an easy means to prevent memory leaks.
Enclose all write statements with the following:
!$OMP CRITICAL (write2out)
<your write statement>
!$OMP END CRITICAL (write2out)
Whenever you change something in the code and are not sure if it affects parallelization and leads to nonconforming behavior, please ask me and/or Franz to check this.
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tau_twin ( j ) = dot_product ( Tstar_v , lattice_Stwin_v ( 1 : 6 , index_myFamily + i , structID ) )
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gdot_twin ( j ) = ( 1.0_pReal - state ( ipc , ip , el ) % p ( index_F ) ) * & ! 1-F
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constitutive_phenopowerlaw_gdot0_twin ( matID ) * &
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( abs ( tau_twin ( j ) ) / state ( ipc , ip , el ) % p ( nSlip + j ) ) ** &
constitutive_phenopowerlaw_n_twin ( matID ) * max ( 0.0_pReal , sign ( 1.0_pReal , tau_twin ( j ) ) )
enddo
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enddo twinFamiliesLoop1
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!--------------------------------------------------------------------------------------------------
! calculate the overall hardening based on above
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j = 0_pInt
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slipFamiliesLoop2 : do f = 1_pInt , lattice_maxNslipFamily
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do i = 1_pInt , constitutive_phenopowerlaw_Nslip ( f , matID ) ! process each (active) slip system in family
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j = j + 1_pInt
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constitutive_phenopowerlaw_dotState ( j ) = & ! evolution of slip resistance j
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c_SlipSlip * left_SlipSlip ( j ) * &
dot_product ( constitutive_phenopowerlaw_hardeningMatrix_SlipSlip ( j , 1 : nSlip , matID ) , &
right_SlipSlip * abs ( gdot_slip ) ) + & ! dot gamma_slip modulated by right-side slip factor
c_SlipTwin * left_SlipTwin ( j ) * &
dot_product ( constitutive_phenopowerlaw_hardeningMatrix_SlipTwin ( j , 1 : nTwin , matID ) , &
right_SlipTwin * gdot_twin ) ! dot gamma_twin modulated by right-side twin factor
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constitutive_phenopowerlaw_dotState ( index_Gamma ) = constitutive_phenopowerlaw_dotState ( index_Gamma ) + &
abs ( gdot_slip ( j ) )
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constitutive_phenopowerlaw_dotState ( offset_accshear_slip + j ) = abs ( gdot_slip ( j ) )
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enddo
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enddo slipFamiliesLoop2
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j = 0_pInt
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twinFamiliesLoop2 : do f = 1_pInt , lattice_maxNtwinFamily
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index_myFamily = sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Ntwin ( f , matID ) ! process each (active) twin system in family
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j = j + 1_pInt
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constitutive_phenopowerlaw_dotState ( j + nSlip ) = & ! evolution of twin resistance j
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c_TwinSlip * left_TwinSlip ( j ) * &
dot_product ( constitutive_phenopowerlaw_hardeningMatrix_TwinSlip ( j , 1 : nSlip , matID ) , &
right_TwinSlip * abs ( gdot_slip ) ) + & ! dot gamma_slip modulated by right-side slip factor
c_TwinTwin * left_TwinTwin ( j ) * &
dot_product ( constitutive_phenopowerlaw_hardeningMatrix_TwinTwin ( j , 1 : nTwin , matID ) , &
right_TwinTwin * gdot_twin ) ! dot gamma_twin modulated by right-side twin factor
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constitutive_phenopowerlaw_dotState ( index_F ) = constitutive_phenopowerlaw_dotState ( index_F ) + &
gdot_twin ( j ) / lattice_shearTwin ( index_myFamily + i , structID )
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constitutive_phenopowerlaw_dotState ( offset_accshear_twin + j ) = abs ( gdot_twin ( j ) )
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enddo
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enddo twinFamiliesLoop2
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end function constitutive_phenopowerlaw_dotState
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!--------------------------------------------------------------------------------------------------
!> @brief (instantaneous) incremental change of microstructure
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!> @details dummy function, returns 0.0
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!--------------------------------------------------------------------------------------------------
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function constitutive_phenopowerlaw_deltaState ( Tstar_v , temperature , state , ipc , ip , el )
use prec , only : &
p_vec
use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
homogenization_maxNgrains , &
material_phase , &
phase_plasticityInstance
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implicit none
real ( pReal ) , dimension ( 6 ) , intent ( in ) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
real ( pReal ) , intent ( in ) :: &
Temperature !< temperature at integration point
integer ( pInt ) , intent ( in ) :: &
ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
state !< microstructure state
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real ( pReal ) , dimension ( constitutive_phenopowerlaw_sizeDotState ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
constitutive_phenopowerlaw_deltaState
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constitutive_phenopowerlaw_deltaState = 0.0_pReal
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end function constitutive_phenopowerlaw_deltaState
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates the rate of change of temperature
!> @details dummy function, returns 0.0
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!--------------------------------------------------------------------------------------------------
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real ( pReal ) pure function constitutive_phenopowerlaw_dotTemperature ( Tstar_v , temperature , state , ipc , ip , el )
use prec , only : &
p_vec
use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
homogenization_maxNgrains
implicit none
real ( pReal ) , dimension ( 6 ) , intent ( in ) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
real ( pReal ) , intent ( in ) :: &
temperature !< temperature at integration point
integer ( pInt ) , intent ( in ) :: &
ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
state
constitutive_phenopowerlaw_dotTemperature = 0.0_pReal
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end function constitutive_phenopowerlaw_dotTemperature
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!--------------------------------------------------------------------------------------------------
!> @brief return array of constitutive results
!--------------------------------------------------------------------------------------------------
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pure function constitutive_phenopowerlaw_postResults ( Tstar_v , temperature , dt , state , ipc , ip , el )
use prec , only : &
p_vec
use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
use material , only : &
homogenization_maxNgrains , &
material_phase , &
phase_plasticityInstance , &
phase_Noutput
use lattice , only : &
lattice_Sslip_v , &
lattice_Stwin_v , &
lattice_maxNslipFamily , &
lattice_maxNtwinFamily , &
lattice_NslipSystem , &
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lattice_NtwinSystem , &
lattice_NnonSchmid
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use mesh , only : &
mesh_NcpElems , &
mesh_maxNips
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implicit none
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real ( pReal ) , dimension ( 6 ) , intent ( in ) :: &
Tstar_v !< 2nd Piola Kirchhoff stress tensor in Mandel notation
real ( pReal ) , intent ( in ) :: &
temperature , & !< temperature at integration point
dt
integer ( pInt ) , intent ( in ) :: &
ipc , & !< component-ID of integration point
ip , & !< integration point
el !< element
type ( p_vec ) , dimension ( homogenization_maxNgrains , mesh_maxNips , mesh_NcpElems ) , intent ( in ) :: &
state !< microstructure state
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real ( pReal ) , dimension ( constitutive_phenopowerlaw_sizePostResults ( phase_plasticityInstance ( material_phase ( ipc , ip , el ) ) ) ) :: &
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constitutive_phenopowerlaw_postResults
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integer ( pInt ) :: &
matID , structID , &
nSlip , nTwin , &
o , f , i , c , j , k , &
index_Gamma , index_F , index_accshear_slip , index_accshear_twin , index_myFamily
real ( pReal ) :: &
tau_slip_pos , tau_slip_neg , tau
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matID = phase_plasticityInstance ( material_phase ( ipc , ip , el ) )
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structID = constitutive_phenopowerlaw_structure ( matID )
nSlip = constitutive_phenopowerlaw_totalNslip ( matID )
nTwin = constitutive_phenopowerlaw_totalNtwin ( matID )
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index_Gamma = nSlip + nTwin + 1_pInt
index_F = nSlip + nTwin + 2_pInt
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index_accshear_slip = nSlip + nTwin + 3_pInt
index_accshear_twin = nSlip + nTwin + 3_pInt + nSlip
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constitutive_phenopowerlaw_postResults = 0.0_pReal
c = 0_pInt
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outputsLoop : do o = 1_pInt , phase_Noutput ( material_phase ( ipc , ip , el ) )
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select case ( constitutive_phenopowerlaw_output ( o , matID ) )
case ( 'resistance_slip' )
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constitutive_phenopowerlaw_postResults ( c + 1_pInt : c + nSlip ) = state ( ipc , ip , el ) % p ( 1 : nSlip )
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c = c + nSlip
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case ( 'accumulatedshear_slip' )
constitutive_phenopowerlaw_postResults ( c + 1_pInt : c + nSlip ) = state ( ipc , ip , el ) % p ( index_accshear_slip : &
index_accshear_slip + nSlip )
c = c + nSlip
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case ( 'shearrate_slip' )
j = 0_pInt
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slipFamiliesLoop1 : do f = 1_pInt , lattice_maxNslipFamily
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index_myFamily = sum ( lattice_NslipSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Nslip ( f , matID ) ! process each (active) slip system in family
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j = j + 1_pInt
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tau_slip_pos = dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 1 , index_myFamily + i , structID ) )
tau_slip_neg = tau_slip_pos
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do k = 1 , lattice_NnonSchmid ( structID )
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tau_slip_pos = tau_slip_pos + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 2 * k , index_myFamily + i , structID ) )
tau_slip_neg = tau_slip_neg + constitutive_phenopowerlaw_nonSchmidCoeff ( k , matID ) * &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 2 * k + 1 , index_myFamily + i , structID ) )
enddo
constitutive_phenopowerlaw_postResults ( c + j ) = constitutive_phenopowerlaw_gdot0_slip ( matID ) * 0.5_pReal * &
( ( abs ( tau_slip_pos ) / state ( ipc , ip , el ) % p ( j ) ) ** constitutive_phenopowerlaw_n_slip ( matID ) &
+ ( abs ( tau_slip_neg ) / state ( ipc , ip , el ) % p ( j ) ) ** constitutive_phenopowerlaw_n_slip ( matID ) ) &
* sign ( 1.0_pReal , tau_slip_pos )
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enddo
enddo slipFamiliesLoop1
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c = c + nSlip
case ( 'resolvedstress_slip' )
j = 0_pInt
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slipFamiliesLoop2 : do f = 1_pInt , lattice_maxNslipFamily
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index_myFamily = sum ( lattice_NslipSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Nslip ( f , matID ) ! process each (active) slip system in family
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j = j + 1_pInt
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constitutive_phenopowerlaw_postResults ( c + j ) = &
dot_product ( Tstar_v , lattice_Sslip_v ( 1 : 6 , 1 , index_myFamily + i , structID ) )
enddo
enddo slipFamiliesLoop2
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c = c + nSlip
case ( 'totalshear' )
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constitutive_phenopowerlaw_postResults ( c + 1_pInt ) = &
state ( ipc , ip , el ) % p ( index_Gamma )
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c = c + 1_pInt
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case ( 'resistance_twin' )
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constitutive_phenopowerlaw_postResults ( c + 1_pInt : c + nTwin ) = &
state ( ipc , ip , el ) % p ( 1_pInt + nSlip : nTwin + nSlip )
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c = c + nTwin
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case ( 'accumulatedshear_twin' )
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constitutive_phenopowerlaw_postResults ( c + 1_pInt : c + nTwin ) = &
state ( ipc , ip , el ) % p ( index_accshear_twin : index_accshear_twin + nTwin )
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c = c + nTwin
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case ( 'shearrate_twin' )
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j = 0_pInt
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twinFamiliesLoop1 : do f = 1_pInt , lattice_maxNtwinFamily
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index_myFamily = sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Ntwin ( f , matID ) ! process each (active) twin system in family
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j = j + 1_pInt
openmp parallelization working again (at least for j2 and nonlocal constitutive model).
In order to keep it like that, please follow these simple rules:
DON'T use implicit array subscripts:
example: real, dimension(3,3) :: A,B
A(:,2) = B(:,1) <--- DON'T USE
A(1:3,2) = B(1:3,1) <--- BETTER USE
In many cases the use of explicit array subscripts is inevitable for parallelization. Additionally, it is an easy means to prevent memory leaks.
Enclose all write statements with the following:
!$OMP CRITICAL (write2out)
<your write statement>
!$OMP END CRITICAL (write2out)
Whenever you change something in the code and are not sure if it affects parallelization and leads to nonconforming behavior, please ask me and/or Franz to check this.
2011-03-17 16:16:17 +05:30
tau = dot_product ( Tstar_v , lattice_Stwin_v ( 1 : 6 , index_myFamily + i , structID ) )
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constitutive_phenopowerlaw_postResults ( c + j ) = ( 1.0_pReal - state ( ipc , ip , el ) % p ( index_F ) ) * & ! 1-F
constitutive_phenopowerlaw_gdot0_twin ( matID ) * &
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( abs ( tau ) / state ( ipc , ip , el ) % p ( j + nSlip ) ) ** &
constitutive_phenopowerlaw_n_twin ( matID ) * max ( 0.0_pReal , sign ( 1.0_pReal , tau ) )
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enddo
enddo twinFamiliesLoop1
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c = c + nTwin
case ( 'resolvedstress_twin' )
j = 0_pInt
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twinFamiliesLoop2 : do f = 1_pInt , lattice_maxNtwinFamily
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index_myFamily = sum ( lattice_NtwinSystem ( 1 : f - 1_pInt , structID ) ) ! at which index starts my family
do i = 1_pInt , constitutive_phenopowerlaw_Ntwin ( f , matID ) ! process each (active) twin system in family
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j = j + 1_pInt
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constitutive_phenopowerlaw_postResults ( c + j ) = &
dot_product ( Tstar_v , lattice_Stwin_v ( 1 : 6 , index_myFamily + i , structID ) )
enddo
enddo twinFamiliesLoop2
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c = c + nTwin
case ( 'totalvolfrac' )
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constitutive_phenopowerlaw_postResults ( c + 1_pInt ) = state ( ipc , ip , el ) % p ( index_F )
c = c + 1_pInt
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end select
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enddo outputsLoop
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end function constitutive_phenopowerlaw_postResults
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end module constitutive_phenopowerlaw