OGS
mfront_restart_part1.prj
<
OpenGeoSysProject
>
<
meshes
>
<
mesh
axially_symmetric
="true">square_1x1_quad_1e0.vtu</mesh>
<
mesh
axially_symmetric
="true">square_1x1_quad_1e0_left.vtu</mesh>
<
mesh
axially_symmetric
="true">square_1x1_quad_1e0_right.vtu</mesh>
<
mesh
axially_symmetric
="true">square_1x1_quad_1e0_top.vtu</mesh>
<
mesh
axially_symmetric
="true">square_1x1_quad_1e0_bottom.vtu</mesh>
</meshes>
<
processes
>
<
process
>
<
name
>HM</name>
<
type
>
THERMO_HYDRO_MECHANICS
</type>
<
integration_order
>2</integration_order>
<constitutive_relation>
<type>
MFront
</type>
<
behaviour
>ModCamClay_semiExpl_constE</behaviour>
<
material_properties
>
<
material_property
name
="YoungModulus"
parameter
="YoungModulus" />
<
material_property
name
="PoissonRatio"
parameter
="PoissonRatio" />
<
material_property
name
="CriticalStateLineSlope"
parameter
="CriticalStateLineSlope" />
<
material_property
name
="SwellingLineSlope"
parameter
="SwellingLineSlope" />
<
material_property
name
="VirginConsolidationLineSlope"
parameter
="VirginConsolidationLineSlope" />
<
material_property
name
="CharacteristicPreConsolidationPressure"
parameter
="InitialPreConsolidationPressure" />
</material_properties>
<
initial_values
>
<
state_variable
name
="PreConsolidationPressure"
parameter
="InitialPreConsolidationPressure" />
<
state_variable
name
="VolumeRatio"
parameter
="InitialVolumeRatio" />
</initial_values>
</constitutive_relation>
<
process_variables
>
<
temperature
>temperature</temperature>
<
pressure
>pressure</pressure>
<
displacement
>displacement</displacement>
</process_variables>
<
secondary_variables
>
<
secondary_variable
internal_name
="sigma"
output_name
="sigma" />
<
secondary_variable
internal_name
="epsilon"
output_name
="epsilon" />
<
secondary_variable
internal_name
="epsilon_m"
output_name
="epsilon_m" />
<
secondary_variable
internal_name
="velocity"
output_name
="velocity" />
<
secondary_variable
internal_name
="EquivalentPlasticStrain"
output_name
="EquivalentPlasticStrain" />
<
secondary_variable
internal_name
="PreConsolidationPressure"
output_name
="PreConsolidationPressure" />
<
secondary_variable
internal_name
="PlasticVolumetricStrain"
output_name
="PlasticVolumetricStrain" />
<
secondary_variable
internal_name
="VolumeRatio"
output_name
="VolumeRatio" />
<
secondary_variable
internal_name
="ElasticStrain"
output_name
="ElasticStrain" />
</secondary_variables>
<
specific_body_force
>0 0</specific_body_force>
<
initial_stress
>sigma0</initial_stress>
</process>
</processes>
<
media
>
<
medium
>
<
phases
>
<
phase
>
<
type
>
AqueousLiquid
</type>
<
properties
>
<
property
>
<
name
>viscosity</name>
<
type
>
Constant
</type>
<
value
>1e-3</value>
</property>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>1e3</value>
</property>
<
property
>
<
name
>specific_heat_capacity</name>
<
type
>
Constant
</type>
<
value
>1</value>
</property>
</properties>
</phase>
<
phase
>
<
type
>
Solid
</type>
<
properties
>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>2780.0</value>
</property>
<
property
>
<
name
>specific_heat_capacity</name>
<
type
>
Constant
</type>
<
value
>1</value>
</property>
<
property
>
<
name
>thermal_expansivity</name>
<
type
>
Constant
</type>
<
value
>1e-6</value>
</property>
</properties>
</phase>
</phases>
<
properties
>
<
property
>
<
name
>permeability</name>
<
type
>
Constant
</type>
<
value
>1e-12</value>
</property>
<
property
>
<
name
>porosity</name>
<
type
>
Constant
</type>
<
value
>0.432</value>
</property>
<
property
>
<
name
>thermal_conductivity</name>
<
type
>
Constant
</type>
<
value
>1</value>
</property>
<
property
>
<
name
>reference_temperature</name>
<
type
>
Constant
</type>
<
value
>293.15</value>
</property>
<
property
>
<
name
>biot_coefficient</name>
<
type
>
Constant
</type>
<
value
>1.0</value>
</property>
</properties>
</medium>
</media>
<
time_loop
>
<
processes
>
<
process
ref
="HM">
<
nonlinear_solver
>basic_newton</nonlinear_solver>
<
convergence_criterion
>
<
type
>
PerComponentDeltaX
</type>
<
norm_type
>NORM2</norm_type>
<
abstols
>1e-15 1.1e-10 1e-14 1e-14</abstols>
</convergence_criterion>
<
time_discretization
>
<
type
>
BackwardEuler
</type>
</time_discretization>
<
time_stepping
>
<
type
>
FixedTimeStepping
</type>
<
t_initial
>0</t_initial>
<
t_end
>1000</t_end>
<
timesteps
>
<
pair
>
<
repeat
>10</repeat>
<
delta_t
>100</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<
output
>
<
type
>
VTK
</type>
<
prefix
>mfront_restart_part1</prefix>
<
suffix
>
t
{:time}</suffix>
<
timesteps
>
<
pair
>
<
repeat
>1</repeat>
<
each_steps
>1</each_steps>
</pair>
</timesteps>
<
variables
/>
</output>
</time_loop>
<
parameters
>
<
parameter
>
<
name
>YoungModulus</name>
<
type
>
Constant
</type>
<
value
>52e6</value>
</parameter>
<
parameter
>
<
name
>PoissonRatio</name>
<
type
>
Constant
</type>
<
value
>0.3</value>
</parameter>
<
parameter
>
<
name
>CriticalStateLineSlope</name>
<
type
>
Constant
</type>
<
value
>1.2</value>
</parameter>
<
parameter
>
<
name
>SwellingLineSlope</name>
<
type
>
Constant
</type>
<
value
>6.6e-3</value>
</parameter>
<
parameter
>
<
name
>VirginConsolidationLineSlope</name>
<
type
>
Constant
</type>
<
value
>7.7e-2</value>
</parameter>
<
parameter
>
<
name
>InitialPreConsolidationPressure</name>
<
type
>
Constant
</type>
<
value
>2e5</value>
</parameter>
<
parameter
>
<
name
>InitialVolumeRatio</name>
<
type
>
Constant
</type>
<
value
>1.76</value>
</parameter>
<
parameter
>
<
name
>sigma0</name>
<
type
>
Function
</type>
<
expression
>-5e4</expression>
<
expression
>-5e4</expression>
<
expression
>-5e4</expression>
<
expression
>0</expression>
</parameter>
<
parameter
>
<
name
>displacement0</name>
<
type
>
Constant
</type>
<
values
>0 0</values>
</parameter>
<
parameter
>
<
name
>zero</name>
<
type
>
Constant
</type>
<
value
>0.0</value>
</parameter>
<
parameter
>
<
name
>reference_temperature</name>
<
type
>
Constant
</type>
<
value
>293.15</value>
</parameter>
<
parameter
>
<
name
>total_axial_stress</name>
<
type
>
Constant
</type>
<
value
>-3.35e5</value>
</parameter>
<
parameter
>
<
name
>pressure_ic</name>
<
type
>
Constant
</type>
<
value
>5e4</value>
</parameter>
</parameters>
<
process_variables
>
<
process_variable
>
<
name
>temperature</name>
<
components
>1</components>
<
order
>1</order>
<
initial_condition
>reference_temperature</initial_condition>
<
deactivated_subdomains
>
<
deactivated_subdomain
>
<
time_interval
>
<
start
>0</start>
<
end
>2000</end>
</time_interval>
<
material_ids
>0</material_ids>
<
boundary_parameter
>reference_temperature</boundary_parameter>
</deactivated_subdomain>
</deactivated_subdomains>
</process_variable>
<
process_variable
>
<
name
>pressure</name>
<
components
>1</components>
<
order
>1</order>
<
initial_condition
>pressure_ic</initial_condition>
<
boundary_conditions
>
<
boundary_condition
>
<
mesh
>square_1x1_quad_1e0_top</mesh>
<
type
>
Dirichlet
</type>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<
process_variable
>
<
name
>displacement</name>
<
components
>2</components>
<
order
>1</order>
<
initial_condition
>displacement0</initial_condition>
<
boundary_conditions
>
<
boundary_condition
>
<
mesh
>square_1x1_quad_1e0_left</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>zero</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>square_1x1_quad_1e0_right</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>zero</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>square_1x1_quad_1e0_bottom</mesh>
<
type
>
Dirichlet
</type>
<
component
>1</component>
<
parameter
>zero</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>square_1x1_quad_1e0_top</mesh>
<
type
>
Neumann
</type>
<
component
>1</component>
<
parameter
>total_axial_stress</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<
nonlinear_solvers
>
<
nonlinear_solver
>
<
name
>basic_newton</name>
<
type
>
Newton
</type>
<
max_iter
>20</max_iter>
<
linear_solver
>general_linear_solver</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
<
linear_solvers
>
<
linear_solver
>
<
name
>general_linear_solver</name>
<
eigen
>
<
solver_type
>SparseLU</solver_type>
<
scaling
>true</scaling>
</eigen>
</linear_solver>
</linear_solvers>
<
test_definition
>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>pressure</field>
<
absolute_tolerance
>1e-10</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>displacement</field>
<
absolute_tolerance
>1e-15</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>sigma</field>
<
absolute_tolerance
>1e-9</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>epsilon</field>
<
absolute_tolerance
>1e-15</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>velocity</field>
<
absolute_tolerance
>1e-13</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>NodalForces</field>
<
absolute_tolerance
>1e-9</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>EquivalentPlasticStrain</field>
<
absolute_tolerance
>1e-14</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>PreConsolidationPressure</field>
<
absolute_tolerance
>7e-10</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>sigma_ip</field>
<
absolute_tolerance
>3e-10</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>epsilon_ip</field>
<
absolute_tolerance
>1e-14</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>material_state_variable_ElasticStrain_ip</field>
<
absolute_tolerance
>1e-14</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
<
vtkdiff
>
<
regex
>mfront_restart_part1_t_.*.vtu</regex>
<
field
>material_state_variable_EquivalentPlasticStrain_ip</field>
<
absolute_tolerance
>1e-14</absolute_tolerance>
<
relative_tolerance
>0</relative_tolerance>
</vtkdiff>
</test_definition>
</OpenGeoSysProject>
OGS CTests—Project Files
ThermoHydroMechanics
RestartMCC
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