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multiphase_solid_parabolic_gas_vdW.i
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multiphase_solid_parabolic_gas_vdW.i
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[Mesh]
type = GeneratedMesh
dim = 2
nx = 120
ny = 120
xmin = 0
xmax = 1200
ymin = 0
ymax = 1200
#uniform_refine = 3
[]
[GlobalParams]
op_num = 5
grain_num = 5
var_name_base = etam
numbub = 15
bubspac = 150
radius = 44
int_width = 50
displacements = 'disp_x disp_y'
[]
[Variables]
[./wv]
[../]
[./wg]
[../]
[./etab0]
[../]
[./PolycrystalVariables]
[../]
# Displacement fields in x and y directions
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[./disp_y]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./bnds]
order = FIRST
family = LAGRANGE
[../]
[]
[ICs]
[./PolycrystalICs]
[./PolycrystalVoronoiVoidIC]
invalue = 1.0
outvalue = 0.0
[../]
[../]
[./bubble_IC]
variable = etab0
type = PolycrystalVoronoiVoidIC
structure_type = voids
invalue = 1.0
outvalue = 0.0
[../]
[./IC_wv]
variable = wv
type = PolycrystalVoronoiVoidIC
structure_type = voids
invalue = 5.9e-3
outvalue = 5.9e-3
[../]
[./IC_wg]
variable = wg
type = PolycrystalVoronoiVoidIC
structure_type = voids
invalue = 5.36e-3
outvalue = 5.36e-3
[../]
[]
[BCs]
[./Periodic]
[./All]
auto_direction = 'x y'
[../]
[../]
[]
[Kernels]
[./TensorMechanics]
[../]
# Order parameter eta_b0 for bubble phase
[./ACb0_bulk]
type = ACGrGrMulti
variable = etab0
v = 'etam0 etam1 etam2 etam3 etam4'
gamma_names = 'gmb gmb gmb gmb gmb'
[../]
[./ACb0_sw]
type = ACSwitching
variable = etab0
Fj_names = 'omega_total_bubble omega_total_matrix'
hj_names = 'hb hm'
args = 'etam0 etam1 etam2 etam3 etam4 wv wg'
[../]
[./ACb0_int]
type = ACInterface
variable = etab0
kappa_name = kappa
[../]
[./eb0_dot]
type = TimeDerivative
variable = etab0
[../]
# Order parameter eta_m0 for matrix grain 0
[./ACm0_bulk]
type = ACGrGrMulti
variable = etam0
v = 'etab0 etam1 etam2 etam3 etam4'
gamma_names = 'gmb gmm gmm gmm gmm'
[../]
[./ACm0_sw]
type = ACSwitching
variable = etam0
Fj_names = 'omega_total_bubble omega_total_matrix'
hj_names = 'hb hm'
args = 'etab0 etam1 etam2 etam3 etam4 wv wg'
[../]
[./ACm0_int]
type = ACInterface
variable = etam0
kappa_name = kappa
[../]
[./em0_dot]
type = TimeDerivative
variable = etam0
[../]
# Order parameter eta_m1 for matrix grain 1
[./ACm1_bulk]
type = ACGrGrMulti
variable = etam1
v = 'etab0 etam0 etam2 etam3 etam4'
gamma_names = 'gmb gmm gmm gmm gmm'
[../]
[./ACm1_sw]
type = ACSwitching
variable = etam1
Fj_names = 'omega_total_bubble omega_total_matrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam2 etam3 etam4 wv wg'
[../]
[./ACm1_int]
type = ACInterface
variable = etam1
kappa_name = kappa
[../]
[./em1_dot]
type = TimeDerivative
variable = etam1
[../]
# Order parameter eta_m2 for matrix grain 2
[./ACm2_bulk]
type = ACGrGrMulti
variable = etam2
v = 'etab0 etam0 etam1 etam3 etam4'
gamma_names = 'gmb gmm gmm gmm gmm'
[../]
[./ACm2_sw]
type = ACSwitching
variable = etam2
Fj_names = 'omega_total_bubble omega_total_matrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam3 etam4 wv wg'
[../]
[./ACm2_int]
type = ACInterface
variable = etam2
kappa_name = kappa
[../]
[./em2_dot]
type = TimeDerivative
variable = etam2
[../]
# Order parameter eta_m3 for matrix grain 3
[./ACm3_bulk]
type = ACGrGrMulti
variable = etam3
v = 'etab0 etam0 etam1 etam2 etam4'
gamma_names = 'gmb gmm gmm gmm gmm'
[../]
[./ACm3_sw]
type = ACSwitching
variable = etam3
Fj_names = 'omega_total_bubble omega_total_matrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam4 wv wg'
[../]
[./ACm3_int]
type = ACInterface
variable = etam3
kappa_name = kappa
[../]
[./em3_dot]
type = TimeDerivative
variable = etam3
[../]
# Order parameter eta_m4 for matrix grain 4
[./ACm4_bulk]
type = ACGrGrMulti
variable = etam4
v = 'etab0 etam0 etam1 etam2 etam3'
gamma_names = 'gmb gmm gmm gmm gmm'
[../]
[./ACm4_sw]
type = ACSwitching
variable = etam4
Fj_names = 'omega_total_bubble omega_total_matrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 wv wg'
[../]
[./ACm4_int]
type = ACInterface
variable = etam4
kappa_name = kappa
[../]
[./em4_dot]
type = TimeDerivative
variable = etam4
[../]
#Chemical potential for vacancies
[./wv_dot]
type = SusceptibilityTimeDerivative
variable = wv
f_name = chiv
args = '' # in this case chi (the susceptibility) is simply a constant
[../]
[./Diffusion_v]
type = MatDiffusion
variable = wv
D_name = Dchiv
args = ''
[../]
[./Source_v]
type = MaskedBodyForce
variable = wv
value = 2.35e-10
mask = hm
[../]
[./coupled_v_etab0dot]
type = CoupledSwitchingTimeDerivative
variable = wv
v = etab0
Fj_names = 'rhovbub rhovmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_v_etam0dot]
type = CoupledSwitchingTimeDerivative
variable = wv
v = etam0
Fj_names = 'rhovbub rhovmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_v_etam1dot]
type = CoupledSwitchingTimeDerivative
variable = wv
v = etam1
Fj_names = 'rhovbub rhovmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_v_etam2dot]
type = CoupledSwitchingTimeDerivative
variable = wv
v = etam2
Fj_names = 'rhovbub rhovmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_v_etam3dot]
type = CoupledSwitchingTimeDerivative
variable = wv
v = etam3
Fj_names = 'rhovbub rhovmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_v_etam4dot]
type = CoupledSwitchingTimeDerivative
variable = wv
v = etam4
Fj_names = 'rhovbub rhovmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
#Chemical potential for gas atoms
[./wg_dot]
type = SusceptibilityTimeDerivative
variable = wg
f_name = chig
args = '' # in this case chi (the susceptibility) is simply a constant
[../]
[./Diffusion_g]
type = MatDiffusion
variable = wg
D_name = Dchig
args = ''
[../]
[./Source_g]
type = MaskedBodyForce
variable = wg
value = 2.35e-10
mask = hm
[../]
[./coupled_g_etab0dot]
type = CoupledSwitchingTimeDerivative
variable = wg
v = etab0
Fj_names = 'rhogbub rhogmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_g_etam0dot]
type = CoupledSwitchingTimeDerivative
variable = wg
v = etam0
Fj_names = 'rhogbub rhogmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_g_etam1dot]
type = CoupledSwitchingTimeDerivative
variable = wg
v = etam1
Fj_names = 'rhogbub rhogmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_g_etam2dot]
type = CoupledSwitchingTimeDerivative
variable = wg
v = etam2
Fj_names = 'rhogbub rhogmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_g_etam3dot]
type = CoupledSwitchingTimeDerivative
variable = wg
v = etam3
Fj_names = 'rhogbub rhogmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[./coupled_g_etam4dot]
type = CoupledSwitchingTimeDerivative
variable = wg
v = etam4
Fj_names = 'rhogbub rhogmatrix'
hj_names = 'hb hm'
args = 'etab0 etam0 etam1 etam2 etam3 etam4'
[../]
[]
[AuxKernels]
[./BndsCalc]
type = BndsCalcAux
variable = bnds
execute_on = timestep_end
[../]
[]
[Materials]
[./hb]
type = SwitchingFunctionMultiPhaseMaterial
h_name = hb
all_etas = 'etab0 etam0 etam1 etam2 etam3 etam4'
phase_etas = 'etab0'
#outputs = exodus
[../]
[./hm]
type = SwitchingFunctionMultiPhaseMaterial
h_name = hm
all_etas = 'etab0 etam0 etam1 etam2 etam3 etam4'
phase_etas = 'etam0 etam1 etam2 etam3 etam4'
#outputs = exodus
[../]
# Chemical contribution to grand potential of bubble
[./omegab]
type = DerivativeParsedMaterial
f_name = omegab
args = 'wv wg'
material_property_names = 'Va kvbub cvbubeq kgbub cgbubeq f0'
function = '-0.5*wv^2/Va^2/kvbub-wv/Va*cvbubeq-0.5*wg^2/Va^2/kgbub-wg/Va*cgbubeq+f0'
derivative_order = 2
#outputs = exodus
[../]
[./elastic_energy_bubble]
type = ElasticEnergyMaterial
base_name = bubble
f_name = fe_bub
args = ' '
[../]
# Total free energy of the bubble
[./Total_energy_bubble]
type = DerivativeSumMaterial
f_name = omega_total_bubble
sum_materials = 'omegab fe_bub'
args = 'wv wg'
[../]
# Chemical contribution to grand potential of matrix
[./omegam]
type = DerivativeParsedMaterial
f_name = omegam
args = 'wv wg'
material_property_names = 'Va kvmatrix cvmatrixeq kgmatrix cgmatrixeq'
function = '-0.5*wv^2/Va^2/kvmatrix-wv/Va*cvmatrixeq-0.5*wg^2/Va^2/kgmatrix-wg/Va*cgmatrixeq'
derivative_order = 2
#outputs = exodus
[../]
[./elastic_energy_matrix]
type = ElasticEnergyMaterial
base_name = matrix
f_name = fe_m
args = ' '
[../]
# Total free energy of the matrix
[./Total_energy_matrix]
type = DerivativeSumMaterial
f_name = omega_total_matrix
sum_materials = 'omegam fe_m'
args = 'wv wg'
[../]
# Densities
[./rhovbub]
type = DerivativeParsedMaterial
f_name = rhovbub
args = 'wv'
material_property_names = 'Va kvbub cvbubeq'
function = 'wv/Va^2/kvbub + cvbubeq/Va'
derivative_order = 2
#outputs = exodus
[../]
[./rhovmatrix]
type = DerivativeParsedMaterial
f_name = rhovmatrix
args = 'wv'
material_property_names = 'Va kvmatrix cvmatrixeq'
function = 'wv/Va^2/kvmatrix + cvmatrixeq/Va'
derivative_order = 2
#outputs = exodus
[../]
[./rhogbub]
type = DerivativeParsedMaterial
f_name = rhogbub
args = 'wg'
material_property_names = 'Va kgbub cgbubeq'
function = 'wg/Va^2/kgbub + cgbubeq/Va'
derivative_order = 2
#outputs = exodus
[../]
[./rhogmatrix]
type = DerivativeParsedMaterial
f_name = rhogmatrix
args = 'wg'
material_property_names = 'Va kgmatrix cgmatrixeq'
function = 'wg/Va^2/kgmatrix + cgmatrixeq/Va'
derivative_order = 2
#outputs = exodus
[../]
[./const]
type = GenericConstantMaterial
prop_names = 'kappa mu L D Va cvbubeq cgbubeq kgbub kvbub gmb gmm T Efvbar Efgbar kTbar f0 tgrad_corr_mult'
prop_values = '0.5273 0.004688 1.0 0.01 0.04092 0.5459 0.4541 1.41 1.41 0.9218 1.5 1200 7.505e-3 7.505e-3 2.588e-4 0.143 0.0 '
[../]
[./cvmatrixeq] #For values, see Li et al., Nuc. Inst. Methods in Phys. Res. B, 303, 62-27 (2013).
type = ParsedMaterial
f_name = cvmatrixeq
material_property_names = 'T'
constant_names = 'kB Efv'
constant_expressions = '8.6173324e-5 3.0'
function = 'exp(-Efv/(kB*T))'
[../]
[./cgmatrixeq]
type = ParsedMaterial
f_name = cgmatrixeq
material_property_names = 'T'
constant_names = 'kB Efg'
constant_expressions = '8.6173324e-5 3.0'
function = 'exp(-Efg/(kB*T))'
[../]
[./kvmatrix_parabola]
type = ParsedMaterial
f_name = kvmatrix
material_property_names = 'T cvmatrixeq'
constant_names = 'c0v c0g a1 a2'
constant_expressions = '0.01 0.01 0.178605-0.0030782*log(1-c0v)+0.0030782*log(c0v) 0.178605-0.00923461*log(1-c0v)+0.00923461*log(c0v)'
function = '((-a2+3*a1)/(4*(c0v-cvmatrixeq))+(a2-a1)/(2400*(c0v-cvmatrixeq))*T)'
#outputs = exodus
[../]
[./kgmatrix_parabola]
type = ParsedMaterial
f_name = kgmatrix
material_property_names = 'kvmatrix'
function = 'kvmatrix'
[../]
[./Mobility_v]
type = DerivativeParsedMaterial
f_name = Dchiv
material_property_names = 'D chiv'
function = 'D*chiv'
derivative_order = 2
#outputs = exodus
[../]
[./Mobility_g]
type = DerivativeParsedMaterial
f_name = Dchig
material_property_names = 'D chig'
function = 'D*chig'
derivative_order = 2
#outputs = exodus
[../]
[./chiv]
type = DerivativeParsedMaterial
f_name = chiv
args = 'wv'
material_property_names = 'Va hb kvbub hm kvmatrix '
function = '(hm/kvmatrix + hb/kvbub) / Va^2'
derivative_order = 2
outputs = exodus
[../]
[./chig]
type = DerivativeParsedMaterial
f_name = chig
args = 'wg'
material_property_names = 'Va hb kgbub hm kgmatrix '
function = '(hm/kgmatrix + hb/kgbub) / Va^2'
derivative_order = 2
outputs = exodus
[../]
#Mechanical properties
[./Stiffness_matrix]
type = ComputeElasticityTensor
C_ijkl = '6.17 1.89 1.89 6.17 1.89 6.17 1 1 1'
# Elastic constants are in eV/atom to match other energies in the problem
# For symmetric9 with cubic anisotropy the constants are in order
# C11 C12 C12 C11 C12 C11 C44 C44 C44
base_name = matrix
fill_method = symmetric9
[../]
[./strain_matrix]
type = ComputeSmallStrain
base_name = matrix
[../]
[./stress_matrix]
type = ComputeLinearElasticStress
base_name = matrix
[../]
[./Stiffness_bubble]
type = ComputeElasticityTensor
C_ijkl = '6.17e-4 1.89e-4 1.89e-4 6.17e-4 1.89e-4 6.17e-4 1e-4 1e-4 1e-4'
base_name = bubble
fill_method = symmetric9
[../]
[./strain_bubble]
type = ComputeSmallStrain
base_name = bubble
[../]
[./stress_bubble]
type = ComputeLinearElasticStress
base_name = bubble
[../]
[./const_stress]
type = ComputeExtraStressConstant
base_name = bubble
extra_stress_tensor = '-7.27e-3 -7.27e-3 -7.27e-3 0 0 0'
[../]
[./global_stress]
type = MultiPhaseStressMaterial
phase_base = 'bubble matrix'
h = 'hb hm'
[../]
[]
#[Adaptivity]
# marker = errorfrac
# max_h_level = 3
# [./Indicators]
# [./error]
# type = GradientJumpIndicator
# variable = bnds
# [../]
# [../]
# [./Markers]
# [./bound_adapt]
# type = ValueThresholdMarker
# third_state = DO_NOTHING
# coarsen = 1.0
# refine = 0.99
# variable = bnds
# invert = true
# [../]
# [./errorfrac]
# type = ErrorFractionMarker
# coarsen = 0.1
# indicator = error
# refine = 0.7
# [../]
# [../]
#[]
[Postprocessors]
[./number_DOFs]
type = NumDOFs
[../]
[./dt]
type = TimestepSize
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Executioner]
# Preconditioned JFNK (default)
type = Transient
nl_max_its = 15
scheme = bdf2
#solve_type = NEWTON
solve_type = PJFNK
petsc_options_iname = '-pc_type -sub_pc_type'
petsc_options_value = 'asm lu'
l_max_its = 15
l_tol = 1.0e-3
nl_rel_tol = 1.0e-8
start_time = 0.0
#num_steps = 1000
end_time = 1e10
nl_abs_tol = 1e-10
[./TimeStepper]
type = IterationAdaptiveDT
dt = 0.5
optimal_iterations = 8
iteration_window = 2
[../]
[]
[Outputs]
[./exodus]
type = Exodus
interval = 10
[../]
checkpoint = true
csv = true
[]