2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
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!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
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2018-12-30 22:41:03 +05:30
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!> @author Martin Diehl, Max-Planck-Institut für Eisenforschung GmbH
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2018-12-30 16:03:27 +05:30
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!> @brief material subroutine for isotropic plasticity
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!> @details Isotropic Plasticity which resembles the phenopowerlaw plasticity without
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2016-01-09 01:15:20 +05:30
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!! resolving the stress on the slip systems. Will give the response of phenopowerlaw for an
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!! untextured polycrystal
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!--------------------------------------------------------------------------------------------------
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2021-01-27 01:22:48 +05:30
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submodule(phase:plastic) isotropic
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2020-02-14 11:47:30 +05:30
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2019-05-17 02:26:48 +05:30
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type :: tParameters
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2019-03-28 03:12:02 +05:30
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real(pReal) :: &
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2019-03-28 03:39:45 +05:30
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M, & !< Taylor factor
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2019-03-28 11:09:07 +05:30
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dot_gamma_0, & !< reference strain rate
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2019-03-28 03:12:02 +05:30
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n, & !< stress exponent
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2020-09-22 18:32:24 +05:30
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h_0, &
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2019-03-28 11:09:07 +05:30
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h_ln, &
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2019-03-28 03:39:45 +05:30
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xi_inf, & !< maximum critical stress
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2019-03-28 03:12:02 +05:30
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a, &
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2019-03-28 03:39:45 +05:30
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c_1, &
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c_4, &
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c_3, &
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2020-03-15 00:33:57 +05:30
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c_2
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2019-03-28 03:12:02 +05:30
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integer :: &
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of_debug = 0
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logical :: &
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dilatation
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2020-02-14 11:47:30 +05:30
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character(len=pStringLen), allocatable, dimension(:) :: &
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output
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2019-03-28 03:12:02 +05:30
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end type tParameters
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2020-02-14 11:47:30 +05:30
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2019-05-17 02:26:48 +05:30
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type :: tIsotropicState
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2019-03-28 03:12:02 +05:30
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real(pReal), pointer, dimension(:) :: &
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2019-03-28 03:39:45 +05:30
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xi, &
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2019-03-28 11:09:07 +05:30
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gamma
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2019-03-28 03:12:02 +05:30
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end type tIsotropicState
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2017-09-19 05:12:27 +05:30
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2019-01-13 21:33:49 +05:30
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!--------------------------------------------------------------------------------------------------
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! containers for parameters and state
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2019-05-17 02:26:48 +05:30
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type(tParameters), allocatable, dimension(:) :: param
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type(tIsotropicState), allocatable, dimension(:) :: &
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2018-12-30 16:03:27 +05:30
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dotState, &
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state
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2018-12-30 22:41:03 +05:30
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2016-01-09 01:15:20 +05:30
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contains
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!--------------------------------------------------------------------------------------------------
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2020-02-14 11:47:30 +05:30
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!> @brief Perform module initialization.
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2016-01-09 01:15:20 +05:30
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!> @details reads in material parameters, allocates arrays, and does sanity checks
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!--------------------------------------------------------------------------------------------------
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2020-09-14 00:30:34 +05:30
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module function plastic_isotropic_init() result(myPlasticity)
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2019-05-17 02:26:48 +05:30
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2020-08-15 19:32:10 +05:30
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logical, dimension(:), allocatable :: myPlasticity
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2019-03-28 03:12:02 +05:30
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integer :: &
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2020-10-28 02:03:30 +05:30
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Ninstances, &
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2020-02-14 11:47:30 +05:30
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p, &
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2020-08-15 19:32:10 +05:30
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i, &
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2020-10-28 02:03:30 +05:30
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Nconstituents, &
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2020-07-02 00:52:05 +05:30
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sizeState, sizeDotState
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2020-03-16 17:44:44 +05:30
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real(pReal) :: &
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xi_0 !< initial critical stress
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2019-03-28 03:12:02 +05:30
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character(len=pStringLen) :: &
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extmsg = ''
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2020-08-15 19:32:10 +05:30
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class(tNode), pointer :: &
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phases, &
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phase, &
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2020-11-03 03:16:46 +05:30
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mech, &
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2020-08-15 19:32:10 +05:30
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pl
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2020-02-14 11:47:30 +05:30
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2020-09-14 00:30:34 +05:30
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print'(/,a)', ' <<<+- plastic_isotropic init -+>>>'
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2020-08-15 19:32:10 +05:30
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myPlasticity = plastic_active('isotropic')
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2020-10-28 02:03:30 +05:30
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Ninstances = count(myPlasticity)
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print'(a,i2)', ' # instances: ',Ninstances; flush(IO_STDOUT)
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if(Ninstances == 0) return
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2020-07-02 00:52:05 +05:30
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2020-09-14 00:30:34 +05:30
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print*, 'Maiti and Eisenlohr, Scripta Materialia 145:37–40, 2018'
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print*, 'https://doi.org/10.1016/j.scriptamat.2017.09.047'
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2020-10-28 02:03:30 +05:30
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allocate(param(Ninstances))
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allocate(state(Ninstances))
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allocate(dotState(Ninstances))
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2020-02-14 11:47:30 +05:30
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2020-09-13 14:09:17 +05:30
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phases => config_material%get('phase')
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2020-08-15 19:32:10 +05:30
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i = 0
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do p = 1, phases%length
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phase => phases%get(p)
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2020-11-18 01:54:40 +05:30
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mech => phase%get('mechanics')
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2020-08-15 19:32:10 +05:30
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if(.not. myPlasticity(p)) cycle
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i = i + 1
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associate(prm => param(i), &
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dot => dotState(i), &
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stt => state(i))
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2020-11-03 03:16:46 +05:30
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pl => mech%get('plasticity')
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2020-02-14 11:47:30 +05:30
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2020-08-15 19:32:10 +05:30
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2020-09-14 00:30:34 +05:30
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#if defined (__GFORTRAN__)
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2020-08-15 19:32:10 +05:30
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prm%output = output_asStrings(pl)
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#else
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prm%output = pl%get_asStrings('output',defaultVal=emptyStringArray)
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#endif
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2020-03-15 00:33:57 +05:30
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2018-12-30 20:39:51 +05:30
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#ifdef DEBUG
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2020-07-02 04:55:24 +05:30
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if (p==material_phaseAt(debugConstitutive%grain,debugConstitutive%element)) &
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prm%of_debug = material_phasememberAt(debugConstitutive%grain,debugConstitutive%ip,debugConstitutive%element)
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2018-12-30 20:39:51 +05:30
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#endif
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2020-02-14 11:47:30 +05:30
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2020-08-15 19:32:10 +05:30
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xi_0 = pl%get_asFloat('xi_0')
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prm%xi_inf = pl%get_asFloat('xi_inf')
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prm%dot_gamma_0 = pl%get_asFloat('dot_gamma_0')
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prm%n = pl%get_asFloat('n')
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2020-09-22 18:32:24 +05:30
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prm%h_0 = pl%get_asFloat('h_0')
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2020-08-15 19:32:10 +05:30
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prm%M = pl%get_asFloat('M')
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prm%h_ln = pl%get_asFloat('h_ln', defaultVal=0.0_pReal)
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prm%c_1 = pl%get_asFloat('c_1', defaultVal=0.0_pReal)
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prm%c_4 = pl%get_asFloat('c_4', defaultVal=0.0_pReal)
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prm%c_3 = pl%get_asFloat('c_3', defaultVal=0.0_pReal)
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prm%c_2 = pl%get_asFloat('c_2', defaultVal=0.0_pReal)
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prm%a = pl%get_asFloat('a')
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prm%dilatation = pl%get_AsBool('dilatation',defaultVal = .false.)
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2020-02-14 11:47:30 +05:30
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2018-12-30 22:41:03 +05:30
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!--------------------------------------------------------------------------------------------------
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! sanity checks
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2020-03-16 17:44:44 +05:30
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if (xi_0 < 0.0_pReal) extmsg = trim(extmsg)//' xi_0'
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if (prm%dot_gamma_0 <= 0.0_pReal) extmsg = trim(extmsg)//' dot_gamma_0'
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if (prm%n <= 0.0_pReal) extmsg = trim(extmsg)//' n'
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if (prm%a <= 0.0_pReal) extmsg = trim(extmsg)//' a'
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if (prm%M <= 0.0_pReal) extmsg = trim(extmsg)//' M'
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2020-02-14 11:47:30 +05:30
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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! allocate state arrays
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2021-01-26 12:24:24 +05:30
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Nconstituents = count(material_phaseAt2 == p)
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2020-08-15 19:32:10 +05:30
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sizeDotState = size(['xi ','gamma'])
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2019-03-28 03:12:02 +05:30
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sizeState = sizeDotState
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2020-02-14 11:47:30 +05:30
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2020-10-28 02:03:30 +05:30
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call constitutive_allocateState(plasticState(p),Nconstituents,sizeState,sizeDotState,0)
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2020-02-14 11:47:30 +05:30
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2016-01-22 06:38:36 +05:30
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!--------------------------------------------------------------------------------------------------
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2020-03-16 03:37:23 +05:30
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! state aliases and initialization
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2019-03-28 03:39:45 +05:30
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stt%xi => plasticState(p)%state (1,:)
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2020-03-16 17:44:44 +05:30
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stt%xi = xi_0
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2019-03-28 03:39:45 +05:30
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dot%xi => plasticState(p)%dotState(1,:)
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2020-08-15 19:32:10 +05:30
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plasticState(p)%atol(1) = pl%get_asFloat('atol_xi',defaultVal=1.0_pReal)
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2020-03-16 04:57:52 +05:30
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if (plasticState(p)%atol(1) < 0.0_pReal) extmsg = trim(extmsg)//' atol_xi'
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2020-02-14 11:47:30 +05:30
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2019-03-28 11:09:07 +05:30
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stt%gamma => plasticState(p)%state (2,:)
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dot%gamma => plasticState(p)%dotState(2,:)
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2020-08-15 19:32:10 +05:30
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plasticState(p)%atol(2) = pl%get_asFloat('atol_gamma',defaultVal=1.0e-6_pReal)
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2020-03-16 04:57:52 +05:30
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if (plasticState(p)%atol(2) < 0.0_pReal) extmsg = trim(extmsg)//' atol_gamma'
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2019-03-28 03:12:02 +05:30
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! global alias
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plasticState(p)%slipRate => plasticState(p)%dotState(2:2,:)
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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plasticState(p)%state0 = plasticState(p)%state ! ToDo: this could be done centrally
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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end associate
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2020-02-14 11:47:30 +05:30
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2020-03-15 00:33:57 +05:30
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!--------------------------------------------------------------------------------------------------
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! exit if any parameter is out of range
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2020-08-15 19:32:10 +05:30
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if (extmsg /= '') call IO_error(211,ext_msg=trim(extmsg)//'(isotropic)')
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2020-03-15 00:33:57 +05:30
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2019-03-28 03:12:02 +05:30
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enddo
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2016-01-09 01:15:20 +05:30
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2020-08-15 19:32:10 +05:30
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end function plastic_isotropic_init
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2016-01-09 01:15:20 +05:30
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2018-06-01 13:54:42 +05:30
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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2020-02-14 11:47:30 +05:30
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!> @brief Calculate plastic velocity gradient and its tangent.
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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2021-01-27 03:11:41 +05:30
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module subroutine isotropic_LpAndItsTangent(Lp,dLp_dMp,Mp,ph,me)
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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real(pReal), dimension(3,3), intent(out) :: &
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Lp !< plastic velocity gradient
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real(pReal), dimension(3,3,3,3), intent(out) :: &
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dLp_dMp !< derivative of Lp with respect to the Mandel stress
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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real(pReal), dimension(3,3), intent(in) :: &
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Mp !< Mandel stress
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integer, intent(in) :: &
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2021-01-27 03:11:41 +05:30
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ph, &
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2021-01-26 13:09:17 +05:30
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me
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2020-07-03 20:15:11 +05:30
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2019-03-28 03:12:02 +05:30
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real(pReal), dimension(3,3) :: &
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Mp_dev !< deviatoric part of the Mandel stress
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real(pReal) :: &
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2019-03-28 11:09:07 +05:30
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dot_gamma, & !< strainrate
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2019-03-28 03:12:02 +05:30
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norm_Mp_dev, & !< norm of the deviatoric part of the Mandel stress
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squarenorm_Mp_dev !< square of the norm of the deviatoric part of the Mandel stress
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integer :: &
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k, l, m, n
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2020-02-14 11:47:30 +05:30
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2021-01-27 03:11:41 +05:30
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associate(prm => param(phase_plasticityInstance(ph)), stt => state(phase_plasticityInstance(ph)))
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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Mp_dev = math_deviatoric33(Mp)
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2020-03-16 23:13:04 +05:30
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squarenorm_Mp_dev = math_tensordot(Mp_dev,Mp_dev)
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2019-03-28 03:12:02 +05:30
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norm_Mp_dev = sqrt(squarenorm_Mp_dev)
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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if (norm_Mp_dev > 0.0_pReal) then
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2021-01-26 13:09:17 +05:30
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dot_gamma = prm%dot_gamma_0 * (sqrt(1.5_pReal) * norm_Mp_dev/(prm%M*stt%xi(me))) **prm%n
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2020-02-14 11:47:30 +05:30
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2019-04-02 19:09:55 +05:30
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Lp = dot_gamma/prm%M * Mp_dev/norm_Mp_dev
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2019-03-28 03:12:02 +05:30
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forall (k=1:3,l=1:3,m=1:3,n=1:3) &
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dLp_dMp(k,l,m,n) = (prm%n-1.0_pReal) * Mp_dev(k,l)*Mp_dev(m,n) / squarenorm_Mp_dev
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forall (k=1:3,l=1:3) &
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dLp_dMp(k,l,k,l) = dLp_dMp(k,l,k,l) + 1.0_pReal
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forall (k=1:3,m=1:3) &
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dLp_dMp(k,k,m,m) = dLp_dMp(k,k,m,m) - 1.0_pReal/3.0_pReal
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2019-03-28 11:09:07 +05:30
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dLp_dMp = dot_gamma / prm%M * dLp_dMp / norm_Mp_dev
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2019-03-28 03:12:02 +05:30
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else
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Lp = 0.0_pReal
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dLp_dMp = 0.0_pReal
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end if
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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end associate
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2019-01-06 04:11:13 +05:30
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2021-01-26 12:03:04 +05:30
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end subroutine isotropic_LpAndItsTangent
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2016-01-09 01:15:20 +05:30
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2018-12-30 18:31:05 +05:30
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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2020-02-14 11:47:30 +05:30
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!> @brief Calculate inelastic velocity gradient and its tangent.
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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2021-01-26 13:09:17 +05:30
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module subroutine plastic_isotropic_LiAndItsTangent(Li,dLi_dMi,Mi,instance,me)
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2020-02-14 11:47:30 +05:30
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2020-03-16 18:03:14 +05:30
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real(pReal), dimension(3,3), intent(out) :: &
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2019-03-28 03:12:02 +05:30
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Li !< inleastic velocity gradient
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real(pReal), dimension(3,3,3,3), intent(out) :: &
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2019-09-20 17:34:56 +05:30
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dLi_dMi !< derivative of Li with respect to Mandel stress
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2020-02-14 11:47:30 +05:30
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2020-03-16 18:03:14 +05:30
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real(pReal), dimension(3,3), intent(in) :: &
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2020-02-14 11:47:30 +05:30
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Mi !< Mandel stress
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2020-03-16 18:03:14 +05:30
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integer, intent(in) :: &
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2019-03-28 03:12:02 +05:30
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instance, &
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2021-01-26 13:09:17 +05:30
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me
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2020-07-03 20:15:11 +05:30
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2019-03-28 03:12:02 +05:30
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real(pReal) :: &
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2019-09-20 17:34:56 +05:30
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tr !< trace of spherical part of Mandel stress (= 3 x pressure)
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2019-03-28 03:12:02 +05:30
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integer :: &
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k, l, m, n
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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associate(prm => param(instance), stt => state(instance))
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2020-02-14 11:47:30 +05:30
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2019-09-07 01:14:38 +05:30
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tr=math_trace33(math_spherical33(Mi))
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if (prm%dilatation .and. abs(tr) > 0.0_pReal) then ! no stress or J2 plasticity --> Li and its derivative are zero
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Li = math_I3 &
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2021-01-26 13:09:17 +05:30
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* prm%dot_gamma_0/prm%M * (3.0_pReal*prm%M*stt%xi(me))**(-prm%n) &
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2019-09-07 01:14:38 +05:30
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* tr * abs(tr)**(prm%n-1.0_pReal)
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2020-02-14 11:47:30 +05:30
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2021-01-26 13:09:17 +05:30
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forall (k=1:3,l=1:3,m=1:3,n=1:3) dLi_dMi(k,l,m,n) = prm%n / tr * Li(k,l) * math_I3(m,n)
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2019-09-07 01:14:38 +05:30
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2019-03-28 03:12:02 +05:30
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else
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2019-09-07 01:14:38 +05:30
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Li = 0.0_pReal
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dLi_dMi = 0.0_pReal
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2019-03-28 03:12:02 +05:30
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endif
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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end associate
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2019-01-06 04:11:13 +05:30
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2018-05-25 04:01:32 +05:30
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end subroutine plastic_isotropic_LiAndItsTangent
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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2020-02-14 11:47:30 +05:30
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!> @brief Calculate the rate of change of microstructure.
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2016-01-09 01:15:20 +05:30
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!--------------------------------------------------------------------------------------------------
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2021-01-27 03:11:41 +05:30
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module subroutine isotropic_dotState(Mp,ph,me)
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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real(pReal), dimension(3,3), intent(in) :: &
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Mp !< Mandel stress
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integer, intent(in) :: &
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2021-01-27 03:11:41 +05:30
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ph, &
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2021-01-26 13:09:17 +05:30
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me
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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real(pReal) :: &
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2019-03-28 11:09:07 +05:30
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dot_gamma, & !< strainrate
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2019-03-28 03:39:45 +05:30
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xi_inf_star, & !< saturation xi
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2019-03-28 03:12:02 +05:30
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norm_Mp !< norm of the (deviatoric) Mandel stress
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2020-02-14 11:47:30 +05:30
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2021-01-27 03:11:41 +05:30
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associate(prm => param(phase_plasticityInstance(ph)), stt => state(phase_plasticityInstance(ph)), &
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dot => dotState(phase_plasticityInstance(ph)))
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2020-02-14 11:47:30 +05:30
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2019-03-28 03:12:02 +05:30
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if (prm%dilatation) then
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2020-03-16 23:13:04 +05:30
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norm_Mp = sqrt(math_tensordot(Mp,Mp))
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2019-03-28 03:12:02 +05:30
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else
|
2020-03-16 23:13:04 +05:30
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norm_Mp = sqrt(math_tensordot(math_deviatoric33(Mp),math_deviatoric33(Mp)))
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2019-03-28 03:12:02 +05:30
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endif
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2020-02-14 11:47:30 +05:30
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2021-01-26 13:09:17 +05:30
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dot_gamma = prm%dot_gamma_0 * (sqrt(1.5_pReal) * norm_Mp /(prm%M*stt%xi(me))) **prm%n
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2020-02-14 11:47:30 +05:30
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2019-03-28 14:17:03 +05:30
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if (dot_gamma > 1e-12_pReal) then
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2019-03-28 03:39:45 +05:30
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if (dEq0(prm%c_1)) then
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xi_inf_star = prm%xi_inf
|
2019-03-28 03:12:02 +05:30
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else
|
2019-03-28 03:39:45 +05:30
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xi_inf_star = prm%xi_inf &
|
2019-04-04 11:22:36 +05:30
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+ asinh( (dot_gamma / prm%c_1)**(1.0_pReal / prm%c_2))**(1.0_pReal / prm%c_3) &
|
2019-09-21 20:44:03 +05:30
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/ prm%c_4 * (dot_gamma / prm%dot_gamma_0)**(1.0_pReal / prm%n)
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2019-03-28 03:12:02 +05:30
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endif
|
2021-01-26 13:09:17 +05:30
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dot%xi(me) = dot_gamma &
|
2020-09-22 18:32:24 +05:30
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* ( prm%h_0 + prm%h_ln * log(dot_gamma) ) &
|
2021-01-26 13:09:17 +05:30
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* abs( 1.0_pReal - stt%xi(me)/xi_inf_star )**prm%a &
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* sign(1.0_pReal, 1.0_pReal - stt%xi(me)/xi_inf_star)
|
2019-03-28 03:12:02 +05:30
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else
|
2021-01-26 13:09:17 +05:30
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dot%xi(me) = 0.0_pReal
|
2019-03-28 03:12:02 +05:30
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endif
|
2020-02-14 11:47:30 +05:30
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|
2021-01-26 13:09:17 +05:30
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dot%gamma(me) = dot_gamma ! ToDo: not really used
|
2020-02-14 11:47:30 +05:30
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|
2019-03-28 03:12:02 +05:30
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end associate
|
2016-01-09 01:15:20 +05:30
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|
2021-01-26 16:47:00 +05:30
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end subroutine isotropic_dotState
|
2016-01-09 01:15:20 +05:30
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|
2018-12-30 19:07:31 +05:30
|
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|
2019-03-10 01:13:31 +05:30
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|
|
!--------------------------------------------------------------------------------------------------
|
2020-02-14 11:47:30 +05:30
|
|
|
|
!> @brief Write results to HDF5 output file.
|
2019-03-10 01:13:31 +05:30
|
|
|
|
!--------------------------------------------------------------------------------------------------
|
2019-12-03 01:13:02 +05:30
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|
|
|
module subroutine plastic_isotropic_results(instance,group)
|
2019-03-10 01:13:31 +05:30
|
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|
|
2020-02-14 11:47:30 +05:30
|
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|
integer, intent(in) :: instance
|
2019-04-04 11:22:36 +05:30
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character(len=*), intent(in) :: group
|
2020-02-14 11:47:30 +05:30
|
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|
2019-03-10 01:13:31 +05:30
|
|
|
|
integer :: o
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|
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|
associate(prm => param(instance), stt => state(instance))
|
2020-02-14 11:47:30 +05:30
|
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|
outputsLoop: do o = 1,size(prm%output)
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|
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|
select case(trim(prm%output(o)))
|
2020-09-14 00:30:34 +05:30
|
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|
|
case ('xi')
|
2020-08-15 19:32:10 +05:30
|
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|
call results_writeDataset(group,stt%xi,trim(prm%output(o)), &
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|
|
|
|
'resistance against plastic flow','Pa')
|
2019-03-10 01:13:31 +05:30
|
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|
end select
|
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|
enddo outputsLoop
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end associate
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|
end subroutine plastic_isotropic_results
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|
2021-01-26 05:41:32 +05:30
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|
end submodule isotropic
|