Merge remote-tracking branch 'origin/development' into parallel-mesh

2022-02-22 14:56:25 +01:00 · 2022-02-22 14:56:25 +01:00 · 947f228225
parent e82738e067 744f5755ff
commit 947f228225
29 changed files with 200 additions and 111 deletions
--- a/2
+++ b/2
@ -1 +1 @@
-Subproject commit 142be5919d4a4e61e9ad909b6ad7a1ca334fc652
+Subproject commit 4c8116ba3b9e9fbb325a580705028e8310139117
--- a/examples/config/homogenization/8grains.yaml
+++ b/examples/config/homogenization/8grains.yaml
@ -0,0 +1 @@
 N_constituents: 8
--- a/examples/config/homogenization/Homogenization_Isostrain_Parallel3.config
+++ b/examples/config/homogenization/Homogenization_Isostrain_Parallel3.config
@ -1,4 +0,0 @@
 [Parallel3]
 mech	        isostrain
 nconstituents	3
 mapping	        sum		# or 'parallel'
--- a/examples/config/homogenization/bicrystal.yaml
+++ b/examples/config/homogenization/bicrystal.yaml
@ -0,0 +1 @@
 N_constituents: 2
--- a/examples/config/homogenization/damage/pass_direct.yaml
+++ b/examples/config/homogenization/damage/pass_direct.yaml
@ -0,0 +1,3 @@
 # For single point calculations, requires N_constituents = 1
 type: pass
 output: ['T']
--- a/examples/config/homogenization/direct.yaml
+++ b/examples/config/homogenization/direct.yaml
@ -0,0 +1 @@
 N_constituents: 1
--- a/examples/config/homogenization/mechanical/RGC_8grains.yaml
+++ b/examples/config/homogenization/mechanical/RGC_8grains.yaml
@ -1,10 +1,8 @@
-8Grains:
+# For Relaxed Grain Cluster homogenization, requires N_constituents = 8
-  N_constituents: 8
+type: RGC
-  mechanical:
+D_alpha: [4.0e-06, 4.0e-06, 2.0e-06]
-    type: RGC
+a_g: [0.0, 0.0, 0.0]
-    D_alpha: [4.0e-06, 4.0e-06, 2.0e-06]
+c_alpha: 2.0
-    a_g: [0.0, 0.0, 0.0]
+cluster_size: [2, 2, 2]
-    c_alpha: 2.0
+output: [M, Delta_V, avg_dot_a, max_dot_a]
-    cluster_size: [2, 2, 2]
+xi_alpha: 10.0
    output: [M, Delta_V, avg_dot_a, max_dot_a]
    xi_alpha: 10.0
--- a/examples/config/homogenization/mechanical/isostrain_Taylor2.yaml
+++ b/examples/config/homogenization/mechanical/isostrain_Taylor2.yaml
@ -1,3 +0,0 @@
 Taylor2:
  N_constituents: 2
  mechanical: {type: isostrain}
--- a/examples/config/homogenization/mechanical/isostrain_polycrystal.yaml
+++ b/examples/config/homogenization/mechanical/isostrain_polycrystal.yaml
@ -0,0 +1,3 @@
 # For Taylor homogenization with N_constituents > 1
 type: isostrain
 output: ['F', 'P']
--- a/examples/config/homogenization/mechanical/pass_direct.yaml
+++ b/examples/config/homogenization/mechanical/pass_direct.yaml
@ -0,0 +1,3 @@
 # For single point calculations, requires N_constituents = 1
 type: pass
 output: ['F', 'P']
--- a/examples/config/homogenization/thermal/isotemperature_polycrystal.yaml
+++ b/examples/config/homogenization/thermal/isotemperature_polycrystal.yaml
@ -0,0 +1,3 @@
 # For homogenization with N_constituents > 1
 type: isotemperature
 output: ['T']
--- a/examples/config/homogenization/thermal/pass_direct.yaml
+++ b/examples/config/homogenization/thermal/pass_direct.yaml
@ -0,0 +1,3 @@
 # For single point calculations, requires N_constituents = 1
 type: pass
 output: ['T']
--- a/examples/config/phase/thermal/Al.yaml
+++ b/examples/config/phase/thermal/Al.yaml
@ -5,6 +5,8 @@ references:
    fit to Tab. 3.4.1 (RRR=1000, T_min=200K, T_max=900K)
  - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
 output: [T]
 K_11: 2.380e+2
 K_11,T: 2.068e-3
 K_11,T^2: -7.765e-5
--- a/examples/config/phase/thermal/Cu.yaml
+++ b/examples/config/phase/thermal/Cu.yaml
@ -5,6 +5,8 @@ references:
    fit to Tab. 2.4.1 (RRR=1000, T_min=200K, T_max=1000K)
  - https://www.mit.edu/~6.777/matprops/copper.htm
 output: [T]
 K_11: 4.039e+2
 K_11,T: -8.119e-2
 K_11,T^2: 1.454e-5
--- a/examples/config/phase/thermal/Fe.yaml
+++ b/examples/config/phase/thermal/Fe.yaml
@ -5,6 +5,8 @@ references:
    fit to Tab. 4.4.1 (RRR=300, T_min=200K, T_max=1000K)
  - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
 output: [T]
 K_11: 8.055e+1
 K_11,T: -1.051e-1
 K_11,T^2: 5.464e-5
--- a/examples/config/phase/thermal/Ni.yaml
+++ b/examples/config/phase/thermal/Ni.yaml
@ -5,6 +5,8 @@ references:
    fit to Tab. 35R (T_min=150K, T_max=500K)
  - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
 output: [T]
 K_11: 9.132e+1
 K_11,T: -1.525e-1
 K_11,T^2: 3.053e-4
--- a/examples/config/phase/thermal/Sn-beta.yaml
+++ b/examples/config/phase/thermal/Sn-beta.yaml
@ -5,6 +5,8 @@ references:
    fit to Tab. 61R (T_min=100K, T_max=400K)
  - https://www.engineeringtoolbox.com/specific-heat-metals-d_152.html
 output: [T]
 K_11: 7.414e+1
 K_11,T: -6.465e-2
 K_11,T^2: 2.066e-4
--- a/examples/config/phase/thermal/W.yaml
+++ b/examples/config/phase/thermal/W.yaml
@ -5,6 +5,8 @@ references:
    fit to Tab. 5.4.1 (RRR=300, T_min=200K, T_max=1000K)
  - https://www.mit.edu/~6.777/matprops/tungsten.htm
 output: [T]
 K_11: 1.758e+2
 K_11,T: -1.605e-1
 K_11,T^2: 1.160e-4
--- a/python/damask/VERSION
+++ b/python/damask/VERSION
@ -1 +1 @@
-v3.0.0-alpha6-4-gca6a3e786
+v3.0.0-alpha6-14-g3657b2316
--- a/src/homogenization.f90
+++ b/src/homogenization.f90
@ -6,9 +6,10 @@
 !--------------------------------------------------------------------------------------------------
 module homogenization
  use prec
  use math
  use constants
  use IO
  use config
  use math
  use material
  use phase
  use discretization
@ -32,7 +33,7 @@ module homogenization
    HOMOGENIZATION_RGC_ID
  end enum
-    type(tState),        allocatable, dimension(:), public :: &
+  type(tState),        allocatable, dimension(:), public :: &
    homogState, &
    damageState_h
@ -66,15 +67,13 @@ module homogenization
 !--------------------------------------------------------------------------------------------------
  interface
-    module subroutine mechanical_init(num_homog)
+    module subroutine mechanical_init()
      class(tNode), pointer, intent(in) :: &
        num_homog                                                                                   !< pointer to mechanical homogenization numerics data
    end subroutine mechanical_init
-    module subroutine thermal_init
+    module subroutine thermal_init()
    end subroutine thermal_init
-    module subroutine damage_init
+    module subroutine damage_init()
    end subroutine damage_init
    module subroutine mechanical_partition(subF,ce)
@ -204,15 +203,15 @@ subroutine homogenization_init()
  allocate(homogState      (size(material_name_homogenization)))
  allocate(damageState_h   (size(material_name_homogenization)))
-  call material_parseHomogenization()
+  call parseHomogenization()
  num_homog        => config_numerics%get('homogenization',defaultVal=emptyDict)
  num_homogGeneric => num_homog%get('generic',defaultVal=emptyDict)
-  num%nMPstate  = num_homogGeneric%get_asInt('nMPstate',defaultVal=10)
+  num%nMPstate = num_homogGeneric%get_asInt('nMPstate',defaultVal=10)
  if (num%nMPstate < 1) call IO_error(301,ext_msg='nMPstate')
-  call mechanical_init(num_homog)
+  call mechanical_init()
  call thermal_init()
  call damage_init()
@ -323,13 +322,13 @@ subroutine homogenization_mechanical_response2(Delta_t,FEsolving_execIP,FEsolvin
  elementLooping3: do el = FEsolving_execElem(1),FEsolving_execElem(2)
    IpLooping3: do ip = FEsolving_execIP(1),FEsolving_execIP(2)
      ce = (el-1)*discretization_nIPs + ip
-    ho = material_homogenizationID(ce)
+      ho = material_homogenizationID(ce)
-    do co = 1, homogenization_Nconstituents(ho)
+      do co = 1, homogenization_Nconstituents(ho)
-      call crystallite_orientations(co,ip,el)
+        call crystallite_orientations(co,ip,el)
-      enddo
+      end do
-    call mechanical_homogenize(Delta_t,ce)
+      call mechanical_homogenize(Delta_t,ce)
-    enddo IpLooping3
+    end do IpLooping3
-  enddo elementLooping3
+  end do elementLooping3
  !$OMP END PARALLEL DO
@ -447,7 +446,7 @@ end subroutine homogenization_restartRead
 !--------------------------------------------------------------------------------------------------
 !> @brief parses the homogenization part from the material configuration
 !--------------------------------------------------------------------------------------------------
-subroutine material_parseHomogenization
+subroutine parseHomogenization
  class(tNode), pointer :: &
    material_homogenization, &
@ -459,8 +458,8 @@ subroutine material_parseHomogenization
  material_homogenization => config_material%get('homogenization')
-  allocate(thermal_type(size(material_name_homogenization)),        source=THERMAL_isothermal_ID)
+  allocate(thermal_type(size(material_name_homogenization)),source=THERMAL_isothermal_ID)
-  allocate(damage_type (size(material_name_homogenization)),        source=DAMAGE_none_ID)
+  allocate(damage_type (size(material_name_homogenization)),source=DAMAGE_none_ID)
  do h=1, size(material_name_homogenization)
    homog => material_homogenization%get(h)
@ -468,7 +467,7 @@ subroutine material_parseHomogenization
    if (homog%contains('thermal')) then
      homogThermal => homog%get('thermal')
        select case (homogThermal%get_asString('type'))
-          case('pass')
+          case('pass','isotemperature')
            thermal_type(h) = THERMAL_conduction_ID
          case default
            call IO_error(500,ext_msg=homogThermal%get_asString('type'))
@ -486,7 +485,7 @@ subroutine material_parseHomogenization
    endif
  enddo
-end subroutine material_parseHomogenization
+end subroutine parseHomogenization
 end module homogenization
--- a/src/homogenization_mechanical.f90
+++ b/src/homogenization_mechanical.f90
@ -7,15 +7,13 @@ submodule(homogenization) mechanical
  interface
-    module subroutine pass_init
+    module subroutine pass_init()
    end subroutine pass_init
-    module subroutine isostrain_init
+    module subroutine isostrain_init()
    end subroutine isostrain_init
-    module subroutine RGC_init(num_homogMech)
+    module subroutine RGC_init()
      class(tNode), pointer, intent(in) :: &
        num_homogMech                                                                               !< pointer to mechanical homogenization numerics data
    end subroutine RGC_init
@ -52,6 +50,12 @@ submodule(homogenization) mechanical
  end interface
  type :: tOutput                                                                                   !< requested output (per phase)
    character(len=pStringLen), allocatable, dimension(:) :: &
      label
  end type tOutput
  type(tOutput), allocatable, dimension(:) :: output_mechanical
  integer(kind(HOMOGENIZATION_undefined_ID)), dimension(:),   allocatable :: &
    homogenization_type                                                                             !< type of each homogenization
@ -60,27 +64,20 @@ contains
 !--------------------------------------------------------------------------------------------------
 !> @brief Allocate variables and set parameters.
 !--------------------------------------------------------------------------------------------------
-module subroutine mechanical_init(num_homog)
+module subroutine mechanical_init()
  class(tNode), pointer, intent(in) :: &
    num_homog
  class(tNode), pointer :: &
    num_homogMech
  print'(/,1x,a)', '<<<+-  homogenization:mechanical init  -+>>>'
-  call material_parseHomogenization2()
+  call parseMechanical()
-  allocate(homogenization_dPdF(3,3,3,3,discretization_nIPs*discretization_Nelems), source=0.0_pReal)
+  allocate(homogenization_dPdF(3,3,3,3,discretization_Ncells), source=0.0_pReal)
-  homogenization_F0 = spread(math_I3,3,discretization_nIPs*discretization_Nelems)                   ! initialize to identity
+  homogenization_F0 = spread(math_I3,3,discretization_Ncells)
-  homogenization_F = homogenization_F0                                                              ! initialize to identity
+  homogenization_F = homogenization_F0
-  allocate(homogenization_P(3,3,discretization_nIPs*discretization_Nelems),        source=0.0_pReal)
+  allocate(homogenization_P(3,3,discretization_Ncells),source=0.0_pReal)
-  num_homogMech => num_homog%get('mech',defaultVal=emptyDict)
+  if (any(homogenization_type == HOMOGENIZATION_NONE_ID))      call pass_init()
-  if (any(homogenization_type == HOMOGENIZATION_NONE_ID))      call pass_init
+  if (any(homogenization_type == HOMOGENIZATION_ISOSTRAIN_ID)) call isostrain_init()
-  if (any(homogenization_type == HOMOGENIZATION_ISOSTRAIN_ID)) call isostrain_init
+  if (any(homogenization_type == HOMOGENIZATION_RGC_ID))       call RGC_init()
  if (any(homogenization_type == HOMOGENIZATION_RGC_ID))       call RGC_init(num_homogMech)
 end subroutine mechanical_init
@ -185,8 +182,10 @@ module subroutine mechanical_results(group_base,ho)
  character(len=*), intent(in) :: group_base
  integer, intent(in)          :: ho
  integer :: ou
  character(len=:), allocatable :: group
  group = trim(group_base)//'/mechanical'
  call results_closeGroup(results_addGroup(group))
@ -197,12 +196,17 @@ module subroutine mechanical_results(group_base,ho)
  end select
-  !temp = reshape(homogenization_F,[3,3,discretization_nIPs*discretization_Nelems])
+  do ou = 1, size(output_mechanical(1)%label)
-  !call results_writeDataset(group,temp,'F',&
+
-  !                          'deformation gradient','1')
+    select case (output_mechanical(ho)%label(ou))
-  !temp = reshape(homogenization_P,[3,3,discretization_nIPs*discretization_Nelems])
+      case('F')
-  !call results_writeDataset(group,temp,'P',&
+        call results_writeDataset(reshape(homogenization_F,[3,3,discretization_nCells]),group,'F', &
-  !                          '1st Piola-Kirchhoff stress','Pa')
+                                  'deformation gradient','1')
      case('P')
        call results_writeDataset(reshape(homogenization_P,[3,3,discretization_nCells]),group,'P', &
                                  'deformation gradient','1')
    end select
  end do
 end subroutine mechanical_results
@ -210,35 +214,42 @@ end subroutine mechanical_results
 !--------------------------------------------------------------------------------------------------
 !> @brief parses the homogenization part from the material configuration
 !--------------------------------------------------------------------------------------------------
-subroutine material_parseHomogenization2()
+subroutine parseMechanical()
  class(tNode), pointer :: &
    material_homogenization, &
    homog, &
-    homogMech
+    mechanical
  integer :: ho
  integer :: h
  material_homogenization => config_material%get('homogenization')
  allocate(homogenization_type(size(material_name_homogenization)), source=HOMOGENIZATION_undefined_ID)
  allocate(output_mechanical(size(material_name_homogenization)))
-  do h=1, size(material_name_homogenization)
+  do ho=1, size(material_name_homogenization)
-    homog => material_homogenization%get(h)
+    homog => material_homogenization%get(ho)
-    homogMech => homog%get('mechanical')
+    mechanical => homog%get('mechanical')
-    select case (homogMech%get_asString('type'))
+#if defined(__GFORTRAN__)
    output_mechanical(ho)%label = output_as1dString(mechanical)
 #else
    output_mechanical(ho)%label = mechanical%get_as1dString('output',defaultVal=emptyStringArray)
 #endif
    select case (mechanical%get_asString('type'))
      case('pass')
-        homogenization_type(h) = HOMOGENIZATION_NONE_ID
+        homogenization_type(ho) = HOMOGENIZATION_NONE_ID
      case('isostrain')
-        homogenization_type(h) = HOMOGENIZATION_ISOSTRAIN_ID
+        homogenization_type(ho) = HOMOGENIZATION_ISOSTRAIN_ID
      case('RGC')
-        homogenization_type(h) = HOMOGENIZATION_RGC_ID
+        homogenization_type(ho) = HOMOGENIZATION_RGC_ID
      case default
-        call IO_error(500,ext_msg=homogMech%get_asString('type'))
+        call IO_error(500,ext_msg=mechanical%get_asString('type'))
    end select
  end do
-end subroutine material_parseHomogenization2
+end subroutine parseMechanical
 end submodule mechanical
--- a/src/homogenization_mechanical_RGC.f90
+++ b/src/homogenization_mechanical_RGC.f90
@ -71,10 +71,7 @@ contains
 !--------------------------------------------------------------------------------------------------
 !> @brief allocates all necessary fields, reads information from material configuration file
 !--------------------------------------------------------------------------------------------------
-module subroutine RGC_init(num_homogMech)
+module subroutine RGC_init()
  class(tNode), pointer, intent(in) :: &
    num_homogMech                                                                                   !< pointer to mechanical homogenization numerics data
  integer :: &
    ho, &
@ -82,6 +79,8 @@ module subroutine RGC_init(num_homogMech)
    sizeState, nIntFaceTot
  class (tNode), pointer :: &
    num_homogenization, &
    num_mechanical, &
    num_RGC, &                                                                                      ! pointer to RGC numerics data
    material_homogenization, &
    homog, &
@ -105,7 +104,9 @@ module subroutine RGC_init(num_homogMech)
  allocate(state0(material_homogenization%length))
  allocate(dependentState(material_homogenization%length))
-  num_RGC => num_homogMech%get('RGC',defaultVal=emptyDict)
+  num_homogenization => config_numerics%get('homogenization',defaultVal=emptyDict)
  num_mechanical => num_homogenization%get('mechanical',defaultVal=emptyDict)
  num_RGC => num_mechanical%get('RGC',defaultVal=emptyDict)
  num%atol         =  num_RGC%get_asFloat('atol',              defaultVal=1.0e+4_pReal)
  num%rtol         =  num_RGC%get_asFloat('rtol',              defaultVal=1.0e-3_pReal)
@ -171,8 +172,8 @@ module subroutine RGC_init(num_homogMech)
    allocate(homogState(ho)%state0   (sizeState,Nmembers), source=0.0_pReal)
    allocate(homogState(ho)%state    (sizeState,Nmembers), source=0.0_pReal)
-    stt%relaxationVector   => homogState(ho)%state(1:nIntFaceTot,:)
+    stt%relaxationVector => homogState(ho)%state(1:nIntFaceTot,:)
-    st0%relaxationVector   => homogState(ho)%state0(1:nIntFaceTot,:)
+    st0%relaxationVector => homogState(ho)%state0(1:nIntFaceTot,:)
    allocate(dst%volumeDiscrepancy(   Nmembers), source=0.0_pReal)
    allocate(dst%relaxationRate_avg(  Nmembers), source=0.0_pReal)
--- a/src/homogenization_thermal.f90
+++ b/src/homogenization_thermal.f90
@ -52,10 +52,11 @@ module subroutine thermal_init()
  allocate(current(configHomogenizations%length))
  do ho = 1, configHomogenizations%length
-    allocate(current(ho)%T(count(material_homogenizationID==ho)), source=300.0_pReal)
+    allocate(current(ho)%T(count(material_homogenizationID==ho)), source=T_ROOM)
    allocate(current(ho)%dot_T(count(material_homogenizationID==ho)), source=0.0_pReal)
    configHomogenization => configHomogenizations%get(ho)
    associate(prm => param(ho))
      if (configHomogenization%contains('thermal')) then
        configHomogenizationThermal => configHomogenization%get('thermal')
 #if defined (__GFORTRAN__)
@ -63,13 +64,22 @@ module subroutine thermal_init()
 #else
        prm%output = configHomogenizationThermal%get_as1dString('output',defaultVal=emptyStringArray)
 #endif
        select case (configHomogenizationThermal%get_asString('type'))
          case ('pass')
            call pass_init()
          case ('isothermal')
            call isotemperature_init()
        end select
      else
        prm%output = emptyStringArray
      end if
    end associate
  end do
  call pass_init()
 end subroutine thermal_init
--- a/src/homogenization_thermal_isotemperature.f90
+++ b/src/homogenization_thermal_isotemperature.f90
@ -1,13 +1,14 @@
 !--------------------------------------------------------------------------------------------------
 !> @author Martin Diehl, KU Leuven
-!> @brief Dummy homogenization scheme for 1 constituent per material point
+!> @brief Isotemperature homogenization
 !--------------------------------------------------------------------------------------------------
 submodule(homogenization:thermal) isotemperature
 contains
-module subroutine isotemperature_init
+module subroutine isotemperature_init()
  print'(/,1x,a)', '<<<+-  homogenization:thermal:isotemperature init  -+>>>'
 end subroutine isotemperature_init
--- a/src/homogenization_thermal_pass.f90
+++ b/src/homogenization_thermal_pass.f90
@ -7,9 +7,12 @@ submodule(homogenization:thermal) thermal_pass
 contains
 module subroutine pass_init()
-  
+
  print'(/,1x,a)', '<<<+-  homogenization:thermal:pass init  -+>>>'
  if (homogenization_Nconstituents(1) /= 1) &
    call IO_error(211,ext_msg='N_constituents (pass)')
 end subroutine pass_init
 end submodule thermal_pass
--- a/src/phase.f90
+++ b/src/phase.f90
@ -91,6 +91,11 @@ module phase
      integer,          intent(in) :: ph
    end subroutine damage_results
    module subroutine thermal_results(group,ph)
      character(len=*), intent(in) :: group
      integer,          intent(in) :: ph
    end subroutine thermal_results
    module subroutine mechanical_forward()
    end subroutine mechanical_forward
@ -487,6 +492,7 @@ subroutine phase_results()
    call mechanical_results(group,ph)
    call damage_results(group,ph)
    call thermal_results(group,ph)
  end do
--- a/src/phase_damage.f90
+++ b/src/phase_damage.f90
@ -336,7 +336,7 @@ end subroutine damage_results
 !--------------------------------------------------------------------------------------------------
-!> @brief contains the constitutive equation for calculating the rate of change of microstructure
+!> @brief Constitutive equation for calculating the rate of change of microstructure.
 !--------------------------------------------------------------------------------------------------
 function phase_damage_collectDotState(ph,en) result(broken)
--- a/src/phase_mechanical.f90
+++ b/src/phase_mechanical.f90
@ -180,11 +180,12 @@ submodule(phase) mechanical
    end function elastic_nu
  end interface
-  type :: tOutput                                                                                   !< new requested output (per phase)
+
  type :: tOutput                                                                                   !< requested output (per phase)
    character(len=pStringLen), allocatable, dimension(:) :: &
      label
  end type tOutput
-  type(tOutput), allocatable, dimension(:) :: output_constituent
+  type(tOutput), allocatable, dimension(:) :: output_mechanical
  procedure(integrateStateFPI), pointer :: integrateState
@ -216,7 +217,7 @@ module subroutine mechanical_init(phases)
  print'(/,1x,a)', '<<<+-  phase:mechanical init  -+>>>'
 !-------------------------------------------------------------------------------------------------
-  allocate(output_constituent(phases%length))
+  allocate(output_mechanical(phases%length))
  allocate(phase_mechanical_Fe(phases%length))
  allocate(phase_mechanical_Fi(phases%length))
@ -251,12 +252,12 @@ module subroutine mechanical_init(phases)
    allocate(phase_mechanical_P(ph)%data(3,3,Nmembers),source=0.0_pReal)
    allocate(phase_mechanical_S0(ph)%data(3,3,Nmembers),source=0.0_pReal)
-    phase   => phases%get(ph)
+    phase => phases%get(ph)
-    mech    => phase%get('mechanical')
+    mech  => phase%get('mechanical')
 #if defined(__GFORTRAN__)
-    output_constituent(ph)%label = output_as1dString(mech)
+    output_mechanical(ph)%label = output_as1dString(mech)
 #else
-    output_constituent(ph)%label = mech%get_as1dString('output',defaultVal=emptyStringArray)
+    output_mechanical(ph)%label = mech%get_as1dString('output',defaultVal=emptyStringArray)
 #endif
  enddo
@ -330,7 +331,7 @@ module subroutine mechanical_results(group,ph)
  integer,          intent(in) :: ph
-  call crystallite_results(group,ph)
+  call results(group,ph)
  select case(phase_plasticity(ph))
@ -879,9 +880,9 @@ end function integrateStateRK
 !--------------------------------------------------------------------------------------------------
-!> @brief writes crystallite results to HDF5 output file
+!> @brief Write mechanical results to HDF5 output file.
 !--------------------------------------------------------------------------------------------------
-subroutine crystallite_results(group,ph)
+subroutine results(group,ph)
  character(len=*), intent(in) :: group
  integer,          intent(in) :: ph
@ -891,9 +892,9 @@ subroutine crystallite_results(group,ph)
  call results_closeGroup(results_addGroup(group//'/mechanical'))
-  do ou = 1, size(output_constituent(ph)%label)
+  do ou = 1, size(output_mechanical(ph)%label)
-    select case (output_constituent(ph)%label(ou))
+    select case (output_mechanical(ph)%label(ou))
      case('F')
        call results_writeDataset(phase_mechanical_F(ph)%data,group//'/mechanical/','F',&
                                 'deformation gradient','1')
@ -919,13 +920,13 @@ subroutine crystallite_results(group,ph)
        call results_writeDataset(phase_mechanical_S(ph)%data,group//'/mechanical/','S', &
                                 'second Piola-Kirchhoff stress','Pa')
      case('O')
-        call results_writeDataset(to_quaternion(phase_O(ph)%data),group//'/mechanical',output_constituent(ph)%label(ou),&
+        call results_writeDataset(to_quaternion(phase_O(ph)%data),group//'/mechanical',output_mechanical(ph)%label(ou),&
                                 'crystal orientation as quaternion','q_0 (q_1 q_2 q_3)')
-        call results_addAttribute('lattice',phase_lattice(ph),group//'/mechanical/'//output_constituent(ph)%label(ou))
+        call results_addAttribute('lattice',phase_lattice(ph),group//'/mechanical/'//output_mechanical(ph)%label(ou))
        if (any(phase_lattice(ph) == ['hP', 'tI'])) &
-          call results_addAttribute('c/a',phase_cOverA(ph),group//'/mechanical/'//output_constituent(ph)%label(ou))
+          call results_addAttribute('c/a',phase_cOverA(ph),group//'/mechanical/'//output_mechanical(ph)%label(ou))
    end select
-  enddo
+  end do
  contains
@ -947,7 +948,7 @@ subroutine crystallite_results(group,ph)
 end function to_quaternion
-end subroutine crystallite_results
+end subroutine results
 !--------------------------------------------------------------------------------------------------
@ -1335,5 +1336,4 @@ module subroutine phase_set_F(F,co,ce)
 end subroutine phase_set_F
 end submodule mechanical
--- a/src/phase_thermal.f90
+++ b/src/phase_thermal.f90
@ -6,6 +6,7 @@ submodule(phase) thermal
  type :: tThermalParameters
    real(pReal) ::                 C_p = 0.0_pReal                                                  !< heat capacity
    real(pReal), dimension(3,3) :: K   = 0.0_pReal                                                  !< thermal conductivity
    character(len=pStringLen), allocatable, dimension(:) :: output
  end type tThermalParameters
  integer, dimension(:), allocatable :: &
@ -108,6 +109,11 @@ module subroutine thermal_init(phases)
      if (any(phase_lattice(ph) == ['hP','tI'])) param(ph)%K(3,3) = thermal%get_asFloat('K_33')
      param(ph)%K = lattice_symmetrize_33(param(ph)%K,phase_lattice(ph))
 #if defined(__GFORTRAN__)
      param(ph)%output = output_as1dString(thermal)
 #else
      param(ph)%output = thermal%get_as1dString('output',defaultVal=emptyStringArray)
 #endif
      sources => thermal%get('source',defaultVal=emptyList)
      thermal_Nsources(ph) = sources%length
    else
@ -381,4 +387,35 @@ function thermal_active(source_label,src_length)  result(active_source)
 end function thermal_active
 !----------------------------------------------------------------------------------------------
 !< @brief writes damage sources results to HDF5 output file
 !----------------------------------------------------------------------------------------------
 module subroutine thermal_results(group,ph)
  character(len=*), intent(in) :: group
  integer,          intent(in) :: ph
  integer :: ou
  if (allocated(param(ph)%output)) then
    call results_closeGroup(results_addGroup(group//'thermal'))
  else
    return
  endif
  do ou = 1, size(param(ph)%output)
    select case(trim(param(ph)%output(ou)))
      case ('T')
        call results_writeDataset(current(ph)%T,group//'thermal','T', 'temperature','T')
    end select
  end do
 end subroutine thermal_results
 end submodule thermal
		`@ -1 +1 @@`
			`Subproject commit 142be5919d4a4e61e9ad909b6ad7a1ca334fc652`				`Subproject commit 4c8116ba3b9e9fbb325a580705028e8310139117`
`@ -1 +1 @@`
	`v3.0.0-alpha6-4-gca6a3e786`	`v3.0.0-alpha6-14-g3657b2316`