added auxillary functions: get/put 'Physics' to communicate regularised/ unregularised values between solver and constitutive physics

This commit is contained in:
Luv Sharma 2014-09-05 16:31:27 +00:00
parent a7741457b9
commit 923adbc2d3
4 changed files with 370 additions and 1 deletions

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@ -23,6 +23,12 @@ module constitutive
constitutive_TandItsTangent, &
constitutive_collectDotState, &
constitutive_collectDeltaState, &
#ifdef NEWSTATE
constitutive_getLocalDamage, &
constitutive_getNonLocalDamage, &
constitutive_getAdiabaticThermal, &
constitutive_getConductionThermal, &
#endif
constitutive_postResults
private :: &
@ -664,6 +670,136 @@ logical function constitutive_collectDeltaState(Tstar_v, ipc, ip, el)
endif
end function constitutive_collectDeltaState
#ifdef NEWSTATE
!--------------------------------------------------------------------------------------------------
!> @brief returns temperature based on each damage model state layout
!--------------------------------------------------------------------------------------------------
function constitutive_getLocalDamage(ipc, ip, el)
use prec, only: &
pReal
use material, only: &
material_phase, &
LOCAL_DAMAGE_none_ID, &
LOCAL_DAMAGE_BRITTLE_ID, &
phase_damage
use damage_local, only: &
constitutive_brittle_getDamage
implicit none
integer(pInt), intent(in) :: &
ipc, & !< grain number
ip, & !< integration point number
el !< element number
real(pReal) :: constitutive_getLocalDamage
select case (phase_damage(material_phase(ipc,ip,el)))
case (LOCAL_DAMAGE_none_ID)
constitutive_getLocalDamage = 1.0_pReal
case (LOCAL_DAMAGE_BRITTLE_ID)
constitutive_getLocalDamage = constitutive_brittle_getDamage(ipc, ip, el)
end select
end function constitutive_getLocalDamage
function constitutive_getNonlocalDamage(ipc, ip, el)
use prec, only: &
pReal
use material, only: &
material_homog, &
mappingHomogenization, &
fieldDamage, &
field_damage_type, &
FIELD_DAMAGE_LOCAL_ID, &
FIELD_DAMAGE_NONLOCAL_ID
implicit none
integer(pInt), intent(in) :: &
ipc, & !< grain number
ip, & !< integration point number
el !< element number
real(pReal) :: constitutive_getNonlocalDamage
select case(field_damage_type(material_homog(ip,el)))
case (FIELD_DAMAGE_LOCAL_ID)
constitutive_getNonlocalDamage = 1.0_pReal ! doubt
case (FIELD_DAMAGE_NONLOCAL_ID)
constitutive_getNonlocalDamage = fieldDamage(material_homog(ip,el))% &
state(1,mappingHomogenization(1,ip,el)) ! Taylor type
end select
end function constitutive_getNonlocalDamage
function constitutive_getAdiabaticThermal(ipc, ip, el)
use prec, only: &
pReal
use material, only: &
material_phase, &
LOCAL_THERMAL_none_ID, &
LOCAL_THERMAL_HEATGEN_ID, &
phase_thermal
! use thermal_adiabatic, only: &
! constitutive_heatgen_getThermal
use lattice, only: &
lattice_referenceTemperature
implicit none
integer(pInt), intent(in) :: &
ipc, & !< grain number
ip, & !< integration point number
el !< element number
real(pReal) :: constitutive_getAdiabaticThermal
select case (phase_thermal(material_phase(ipc,ip,el)))
case (LOCAL_THERMAL_none_ID)
! constitutive_getAdiabaticThermal = lattice_referenceTemperature(material_phase(ipc,ip,el))
case (LOCAL_THERMAL_HEATGEN_ID)
! constitutive_getAdiabaticThermal = constitutive_heatgen_getThermal(ipc, ip, el)
end select
end function constitutive_getAdiabaticThermal
function constitutive_getConductionThermal(ipc, ip, el)
use prec, only: &
pReal
use material, only: &
mappingHomogenization, &
fieldThermal, &
field_thermal_type, &
FIELD_DAMAGE_LOCAL_ID, &
FIELD_DAMAGE_NONLOCAL_ID, &
material_homog
use lattice, only: &
lattice_referenceTemperature
implicit none
integer(pInt), intent(in) :: &
ipc, & !< grain number
ip, & !< integration point number
el !< element number
real(pReal) :: constitutive_getConductionThermal
select case(field_thermal_type(material_homog(ip,el)))
case (FIELD_DAMAGE_LOCAL_ID)
! constitutive_getConductionThermal = lattice_referenceTemperature(material_phase(ipc,ip,el)) ! check
case (FIELD_DAMAGE_NONLOCAL_ID)
! constitutive_getConductionThermal = fieldThermal(material_homog(ip,el))% &
! state(1,mappingHomogenization(1,ip,el)) ! Taylor type
end select
end function constitutive_getConductionThermal
#endif
!--------------------------------------------------------------------------------------------------

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@ -44,6 +44,9 @@ module damage_local
damage_local_aTolState, &
damage_local_dotState, &
damage_local_damageValue, &
#ifdef NEWSTATE
constitutive_brittle_getDamage, &
#endif
damage_local_postResults
contains
@ -351,6 +354,29 @@ function damage_local_damageValue(ipc, ip, el)
end function damage_local_damageValue
#ifdef NEWSTATE
!--------------------------------------------------------------------------------------------------
!> @brief returns temperature based on local damage model state layout
!--------------------------------------------------------------------------------------------------
function constitutive_brittle_getDamage(ipc, ip, el)
use material, only: &
mappingConstitutive, &
damageState
implicit none
integer(pInt), intent(in) :: &
ipc, & !< grain number
ip, & !< integration point number
el !< element number
real(pReal) :: constitutive_brittle_getDamage
constitutive_brittle_getDamage = &
damageState(mappingConstitutive(2,ipc,ip,el))%state(2,mappingConstitutive(1,ipc,ip,el))* &
damageState(mappingConstitutive(2,ipc,ip,el))%state(2,mappingConstitutive(1,ipc,ip,el))
end function constitutive_brittle_getDamage
#endif
!--------------------------------------------------------------------------------------------------
!> @brief return array of constitutive results
!--------------------------------------------------------------------------------------------------

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@ -62,6 +62,10 @@ module homogenization
public :: &
homogenization_init, &
materialpoint_stressAndItsTangent, &
#ifdef NEWSTATE
field_getDAMAGE, &
field_putDAMAGE, &
#endif
materialpoint_postResults
private :: &
homogenization_partitionDeformation, &
@ -937,7 +941,163 @@ real(pReal) function homogenization_averageHeat(ip,el)
end function homogenization_averageHeat
#ifdef NEWSTATE
!--------------------------------------------------------------------------------------------------
!> @brief ToDo
!--------------------------------------------------------------------------------------------------
real(pReal) function field_getDAMAGE(ip,el)
use mesh, only: &
mesh_element
use material, only: &
material_homog, &
field_damage_type, &
FIELD_DAMAGE_LOCAL_ID, &
FIELD_DAMAGE_NONLOCAL_ID, &
homogenization_Ngrains
use constitutive, only: &
constitutive_getLocalDamage
implicit none
integer(pInt), intent(in) :: &
ip, & !< integration point number
el !< element number
integer(pInt) :: &
Ngrains, ipc
!--------------------------------------------------------------------------------------------------
! computing the damage value needed to be passed to field solver
field_getDAMAGE =0.0_pReal
select case(field_damage_type(material_homog(ip,el)))
case (FIELD_DAMAGE_LOCAL_ID)
field_getDAMAGE = 1.0_pReal
case (FIELD_DAMAGE_NONLOCAL_ID)
do ipc = 1, homogenization_Ngrains(mesh_element(3,el))
field_getDAMAGE = field_getDAMAGE + constitutive_getLocalDamage(ipc,ip,el)
enddo
end select
field_getDAMAGE = field_getDAMAGE /homogenization_Ngrains(mesh_element(3,el))
end function field_getDAMAGE
!--------------------------------------------------------------------------------------------------
!> @brief ToDo, to be pushed in crystallite/material??
!--------------------------------------------------------------------------------------------------
subroutine field_putDAMAGE(ip,el,fieldDamageValue) ! naming scheme
use mesh, only: &
mesh_element
use material, only: &
fieldDamage, &
mappingHomogenization, &
material_homog, &
field_damage_type, &
FIELD_DAMAGE_LOCAL_ID, &
FIELD_DAMAGE_NONLOCAL_ID
implicit none
integer(pInt), intent(in) :: &
ip, & !< integration point number
el, &
fieldDamageValue
integer(pInt) :: &
Ngrains, ipc
select case(field_damage_type(material_homog(ip,el)))
case (FIELD_DAMAGE_LOCAL_ID)
case (FIELD_DAMAGE_NONLOCAL_ID)
fieldDamage(material_homog(ip,el))% &
state(1:fieldDamage(material_homog(ip,el))%sizeState, &
mappingHomogenization(1,ip,el)) = fieldDamageValue
end select
end subroutine field_putDAMAGE
!--------------------------------------------------------------------------------------------------
!> @brief ToDo
!--------------------------------------------------------------------------------------------------
real(pReal) function field_getThermal(ip,el)
use mesh, only: &
mesh_element
use material, only: &
material_homog, &
field_thermal_type, &
FIELD_THERMAL_ADIABATIC_ID, &
FIELD_THERMAL_CONDUCTION_ID, &
homogenization_Ngrains
use constitutive, only: &
constitutive_getAdiabaticThermal
implicit none
integer(pInt), intent(in) :: &
ip, & !< integration point number
el !< element number
integer(pInt) :: &
Ngrains, ipc
! computing the damage value needed to be passed to field solver
field_getThermal =1.0_pReal
select case(field_thermal_type(material_homog(ip,el)))
case (FIELD_THERMAL_ADIABATIC_ID)
field_getThermal = 1.0_pReal
case (FIELD_THERMAL_CONDUCTION_ID)
do ipc = 1, homogenization_Ngrains(mesh_element(3,el))
field_getThermal = field_getThermal + constitutive_getAdiabaticThermal(ipc,ip,el) ! array/function/subroutine which is faster
enddo
end select
field_getThermal = field_getThermal /homogenization_Ngrains(mesh_element(3,el))
end function field_getThermal
!--------------------------------------------------------------------------------------------------
!> @brief ToDo, to be pushed in crystallite/material??
!--------------------------------------------------------------------------------------------------
subroutine field_putThermal(ip,el,fieldThermalValue) ! naming scheme
use mesh, only: &
mesh_element
use material, only: &
material_homog, &
fieldThermal, &
mappingHomogenization, &
field_thermal_type, &
FIELD_THERMAL_ADIABATIC_ID, &
FIELD_THERMAL_CONDUCTION_ID
implicit none
integer(pInt), intent(in) :: &
ip, & !< integration point number
el, &
fieldThermalValue
integer(pInt) :: &
Ngrains, ipc
select case(field_thermal_type(material_homog(ip,el)))
case (FIELD_THERMAL_ADIABATIC_ID)
case (FIELD_THERMAL_CONDUCTION_ID)
fieldThermal(material_homog(ip,el))% &
state(1:fieldThermal(material_homog(ip,el))%sizeState, &
mappingHomogenization(1,ip,el)) = fieldThermalValue
end select
end subroutine field_putThermal
#endif
!--------------------------------------------------------------------------------------------------
!> @brief return array of homogenization results for post file inclusion. call only,
!> if homogenization_sizePostResults(i,e) > 0 !!

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@ -42,6 +42,9 @@ module thermal_adiabatic
thermal_adiabatic_stateInit, &
thermal_adiabatic_aTolState, &
thermal_adiabatic_dotState, &
#ifdef NEWSTATE
constitutive_heatgen_getThermal, &
#endif
thermal_adiabatic_temperature, &
thermal_adiabatic_postResults
@ -79,8 +82,13 @@ subroutine thermal_adiabatic_init(fileUnit)
phase_thermal, &
phase_thermalInstance, &
phase_Noutput, &
#ifdef NEWSTATE
LOCAL_THERMAL_HEATGEN_label, &
LOCAL_THERMAL_HEATGEN_ID, &
#else
THERMAL_ADIABATIC_label, &
THERMAL_adiabatic_ID, &
#endif
material_phase, &
thermalState, &
MATERIAL_partPhase
@ -98,13 +106,21 @@ subroutine thermal_adiabatic_init(fileUnit)
character(len=65536) :: &
tag = '', &
line = ''
#ifdef NEWSTATE
write(6,'(/,a)') ' <<<+- thermal_'//LOCAL_THERMAL_HEATGEN_label//' init -+>>>'
#else
write(6,'(/,a)') ' <<<+- thermal_'//THERMAL_ADIABATIC_label//' init -+>>>'
#endif
write(6,'(a)') ' $Id: thermal_adiabatic.f90 3210 2014-06-17 15:24:44Z MPIE\m.diehl $'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90"
#ifdef NEWSTATE
maxNinstance = int(count(phase_thermal == LOCAL_THERMAL_HEATGEN_ID),pInt)
#else
maxNinstance = int(count(phase_thermal == THERMAL_adiabatic_ID),pInt)
#endif
if (maxNinstance == 0_pInt) return
if (iand(debug_level(debug_constitutive),debug_levelBasic) /= 0_pInt) &
@ -136,7 +152,11 @@ subroutine thermal_adiabatic_init(fileUnit)
phase = phase + 1_pInt ! advance phase section counter
cycle ! skip to next line
endif
#ifdef NEWSTATE
if (phase > 0_pInt ) then; if (phase_thermal(phase) == LOCAL_THERMAL_HEATGEN_ID) then ! do not short-circuit here (.and. with next if statemen). It's not safe in Fortran
#else
if (phase > 0_pInt ) then; if (phase_thermal(phase) == THERMAL_adiabatic_ID) then ! do not short-circuit here (.and. with next if statemen). It's not safe in Fortran
#endif
instance = phase_thermalInstance(phase) ! which instance of my thermal is present phase
positions = IO_stringPos(line,MAXNCHUNKS)
tag = IO_lc(IO_stringValue(line,positions,1_pInt)) ! extract key
@ -159,7 +179,11 @@ subroutine thermal_adiabatic_init(fileUnit)
enddo parsingFile
initializeInstances: do phase = 1_pInt, size(phase_thermal)
#ifdef NEWSTATE
if (phase_thermal(phase) == LOCAL_THERMAL_HEATGEN_ID) then
#else
if (phase_thermal(phase) == THERMAL_adiabatic_ID) then
#endif
NofMyPhase=count(material_phase==phase)
instance = phase_thermalInstance(phase)
@ -300,6 +324,29 @@ function thermal_adiabatic_temperature(ipc, ip, el)
end function thermal_adiabatic_temperature
#ifdef NEWSTATE
!--------------------------------------------------------------------------------------------------
!> @brief returns temperature based on local damage model state layout
!--------------------------------------------------------------------------------------------------
function constitutive_heatgen_getThermal(ipc, ip, el)
use material, only: &
mappingConstitutive, &
ThermalState
implicit none
integer(pInt), intent(in) :: &
ipc, & !< grain number
ip, & !< integration point number
el !< element number
real(pReal) :: constitutive_heatgen_getThermal
constitutive_heatgen_getThermal = &
thermalState(mappingConstitutive(2,ipc,ip,el))%state(1,mappingConstitutive(1,ipc,ip,el))* &
thermalState(mappingConstitutive(2,ipc,ip,el))%state(1,mappingConstitutive(1,ipc,ip,el))
end function constitutive_heatgen_getThermal
#endif
!--------------------------------------------------------------------------------------------------
!> @brief return array of constitutive results
!--------------------------------------------------------------------------------------------------