198 lines
6.4 KiB
Fortran
198 lines
6.4 KiB
Fortran
submodule(phase:mechanical) elastic
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type :: tParameters
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type(tPolynomial) :: &
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C_11, &
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C_12, &
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C_13, &
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C_33, &
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C_44, &
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C_66
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end type tParameters
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type(tParameters), allocatable, dimension(:) :: param
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contains
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!--------------------------------------------------------------------------------------------------
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!> @brief initialize elasticity
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!--------------------------------------------------------------------------------------------------
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module subroutine elastic_init(phases)
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class(tNode), pointer :: &
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phases
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integer :: &
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ph
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class(tNode), pointer :: &
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phase, &
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mech, &
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elastic
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print'(/,1x,a)', '<<<+- phase:mechanical:elastic init -+>>>'
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print'(/,1x,a)', '<<<+- phase:mechanical:elastic:Hooke init -+>>>'
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print'(/,a,i0)', ' # phases: ',phases%length; flush(IO_STDOUT)
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allocate(param(phases%length))
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do ph = 1, phases%length
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phase => phases%get(ph)
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mech => phase%get('mechanical')
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elastic => mech%get('elastic')
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if (elastic%get_asString('type') /= 'Hooke') call IO_error(200,ext_msg=elastic%get_asString('type'))
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associate(prm => param(ph))
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prm%C_11 = polynomial(elastic%asDict(),'C_11','T')
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prm%C_12 = polynomial(elastic%asDict(),'C_12','T')
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prm%C_44 = polynomial(elastic%asDict(),'C_44','T')
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if (any(phase_lattice(ph) == ['hP','tI'])) then
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prm%C_13 = polynomial(elastic%asDict(),'C_13','T')
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prm%C_33 = polynomial(elastic%asDict(),'C_33','T')
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end if
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if (phase_lattice(ph) == 'tI') &
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prm%C_66 = polynomial(elastic%asDict(),'C_66','T')
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end associate
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end do
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end subroutine elastic_init
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!--------------------------------------------------------------------------------------------------
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!> @brief return 6x6 elasticity tensor
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!--------------------------------------------------------------------------------------------------
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pure module function elastic_C66(ph,en) result(C66)
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integer, intent(in) :: &
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ph, &
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en
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real(pReal), dimension(6,6) :: C66
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real(pReal) :: T
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associate(prm => param(ph))
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C66 = 0.0_pReal
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T = thermal_T(ph,en)
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C66(1,1) = prm%C_11%at(T)
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C66(1,2) = prm%C_12%at(T)
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C66(4,4) = prm%C_44%at(T)
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if (any(phase_lattice(ph) == ['hP','tI'])) then
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C66(1,3) = prm%C_13%at(T)
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C66(3,3) = prm%C_33%at(T)
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end if
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if (phase_lattice(ph) == 'tI') C66(6,6) = prm%C_66%at(T)
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C66 = lattice_symmetrize_C66(C66,phase_lattice(ph))
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end associate
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end function elastic_C66
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!--------------------------------------------------------------------------------------------------
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!> @brief return shear modulus
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!--------------------------------------------------------------------------------------------------
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pure module function elastic_mu(ph,en) result(mu)
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integer, intent(in) :: &
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ph, &
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en
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real(pReal) :: &
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mu
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mu = lattice_equivalent_mu(elastic_C66(ph,en),'voigt')
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end function elastic_mu
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!--------------------------------------------------------------------------------------------------
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!> @brief return Poisson ratio
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!--------------------------------------------------------------------------------------------------
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pure module function elastic_nu(ph,en) result(nu)
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integer, intent(in) :: &
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ph, &
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en
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real(pReal) :: &
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nu
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nu = lattice_equivalent_nu(elastic_C66(ph,en),'voigt')
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end function elastic_nu
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!--------------------------------------------------------------------------------------------------
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!> @brief return the 2nd Piola-Kirchhoff stress tensor and its tangent with respect to
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!> the elastic and intermediate deformation gradients using Hooke's law
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! ToDo: Use Voigt matrix directly
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!--------------------------------------------------------------------------------------------------
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module subroutine phase_hooke_SandItsTangents(S, dS_dFe, dS_dFi, &
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Fe, Fi, ph, en)
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integer, intent(in) :: &
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ph, &
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en
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real(pReal), intent(in), dimension(3,3) :: &
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Fe, & !< elastic deformation gradient
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Fi !< intermediate deformation gradient
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real(pReal), intent(out), dimension(3,3) :: &
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S !< 2nd Piola-Kirchhoff stress tensor in lattice configuration
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real(pReal), intent(out), dimension(3,3,3,3) :: &
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dS_dFe, & !< derivative of 2nd P-K stress with respect to elastic deformation gradient
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dS_dFi !< derivative of 2nd P-K stress with respect to intermediate deformation gradient
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real(pReal), dimension(3,3) :: E
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real(pReal), dimension(6,6) :: C66
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real(pReal), dimension(3,3,3,3) :: C
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integer :: &
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i, j
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C66 = phase_damage_C66(phase_homogenizedC66(ph,en),ph,en)
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C = math_Voigt66to3333_stiffness(C66)
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E = 0.5_pReal*(matmul(transpose(Fe),Fe)-math_I3) !< Green-Lagrange strain in unloaded configuration
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S = math_Voigt6to33_stress(matmul(C66,math_33toVoigt6_strain(matmul(matmul(transpose(Fi),E),Fi))))!< 2PK stress in lattice configuration in work conjugate with GL strain pulled back to lattice configuration
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do i =1,3; do j=1,3
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dS_dFe(i,j,1:3,1:3) = matmul(Fe,matmul(matmul(Fi,C(i,j,1:3,1:3)),transpose(Fi))) !< dS_ij/dFe_kl = C_ijmn * Fi_lm * Fi_on * Fe_ko
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dS_dFi(i,j,1:3,1:3) = 2.0_pReal*matmul(matmul(E,Fi),C(i,j,1:3,1:3)) !< dS_ij/dFi_kl = C_ijln * E_km * Fe_mn
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end do; end do
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end subroutine phase_hooke_SandItsTangents
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!--------------------------------------------------------------------------------------------------
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!> @brief Return the homogenized elasticity matrix.
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!--------------------------------------------------------------------------------------------------
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module function phase_homogenizedC66(ph,en) result(C)
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real(pReal), dimension(6,6) :: C
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integer, intent(in) :: ph, en
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plasticType: select case (phase_plasticity(ph))
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case (PLASTIC_DISLOTWIN_ID) plasticType
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C = plastic_dislotwin_homogenizedC(ph,en)
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case default plasticType
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C = elastic_C66(ph,en)
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end select plasticType
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end function phase_homogenizedC66
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end submodule elastic
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