ASPECT
Public Member Functions | Static Public Member Functions | Private Attributes | List of all members
aspect::MaterialModel::Rheology::DislocationCreep< dim > Class Template Reference
Inheritance diagram for aspect::MaterialModel::Rheology::DislocationCreep< dim >:
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Public Member Functions

 DislocationCreep ()
 
void parse_parameters (ParameterHandler &prm, const std::shared_ptr< std::vector< unsigned int >> &expected_n_phases_per_composition=std::shared_ptr< std::vector< unsigned int >>())
 
const DislocationCreepParameters compute_creep_parameters (const unsigned int composition, const std::vector< double > &phase_function_values=std::vector< double >(), const std::vector< unsigned int > &n_phases_per_composition=std::vector< unsigned int >()) const
 
double compute_viscosity (const double strain_rate, const double pressure, const double temperature, const unsigned int composition, const std::vector< double > &phase_function_values=std::vector< double >(), const std::vector< unsigned int > &n_phases_per_composition=std::vector< unsigned int >()) const
 
std::pair< double, double > compute_strain_rate_and_derivative (const double stress, const double pressure, const double temperature, const DislocationCreepParameters creep_parameters) const
 
- Public Member Functions inherited from aspect::SimulatorAccess< dim >
 SimulatorAccess ()
 
 SimulatorAccess (const Simulator< dim > &simulator_object)
 
virtual ~SimulatorAccess ()
 
virtual void initialize_simulator (const Simulator< dim > &simulator_object)
 
template<typename PostprocessorType >
PostprocessorType * find_postprocessor () const
 
const Introspection< dim > & introspection () const
 
const Simulator< dim > & get_simulator () const
 
const Parameters< dim > & get_parameters () const
 
SimulatorSignals< dim > & get_signals () const
 
MPI_Comm get_mpi_communicator () const
 
TimerOutputget_computing_timer () const
 
const ConditionalOStreamget_pcout () const
 
double get_time () const
 
double get_timestep () const
 
double get_old_timestep () const
 
unsigned int get_timestep_number () const
 
unsigned int get_nonlinear_iteration () const
 
const parallel::distributed::Triangulation< dim > & get_triangulation () const
 
double get_volume () const
 
const Mapping< dim > & get_mapping () const
 
std::string get_output_directory () const
 
bool include_adiabatic_heating () const
 
bool include_latent_heat () const
 
bool include_melt_transport () const
 
int get_stokes_velocity_degree () const
 
double get_adiabatic_surface_temperature () const
 
double get_surface_pressure () const
 
bool convert_output_to_years () const
 
unsigned int get_pre_refinement_step () const
 
unsigned int n_compositional_fields () const
 
void get_refinement_criteria (Vector< float > &estimated_error_per_cell) const
 
void get_artificial_viscosity (Vector< float > &viscosity_per_cell, const bool skip_interior_cells=false) const
 
void get_artificial_viscosity_composition (Vector< float > &viscosity_per_cell, const unsigned int compositional_variable) const
 
const LinearAlgebra::BlockVectorget_current_linearization_point () const
 
const LinearAlgebra::BlockVectorget_solution () const
 
const LinearAlgebra::BlockVectorget_old_solution () const
 
const LinearAlgebra::BlockVectorget_old_old_solution () const
 
const LinearAlgebra::BlockVectorget_reaction_vector () const
 
const LinearAlgebra::BlockVectorget_mesh_velocity () const
 
const DoFHandler< dim > & get_dof_handler () const
 
const FiniteElement< dim > & get_fe () const
 
const LinearAlgebra::BlockSparseMatrixget_system_matrix () const
 
const LinearAlgebra::BlockSparseMatrixget_system_preconditioner_matrix () const
 
const MaterialModel::Interface< dim > & get_material_model () const
 
void compute_material_model_input_values (const LinearAlgebra::BlockVector &input_solution, const FEValuesBase< dim, dim > &input_finite_element_values, const typename DoFHandler< dim >::active_cell_iterator &cell, const bool compute_strainrate, MaterialModel::MaterialModelInputs< dim > &material_model_inputs) const
 
const GravityModel::Interface< dim > & get_gravity_model () const
 
const InitialTopographyModel::Interface< dim > & get_initial_topography_model () const
 
const GeometryModel::Interface< dim > & get_geometry_model () const
 
const AdiabaticConditions::Interface< dim > & get_adiabatic_conditions () const
 
bool has_boundary_temperature () const
 
DEAL_II_DEPRECATED const BoundaryTemperature::Interface< dim > & get_boundary_temperature () const
 
const BoundaryTemperature::Manager< dim > & get_boundary_temperature_manager () const
 
const BoundaryHeatFlux::Interface< dim > & get_boundary_heat_flux () const
 
bool has_boundary_composition () const
 
DEAL_II_DEPRECATED const BoundaryComposition::Interface< dim > & get_boundary_composition () const
 
const BoundaryComposition::Manager< dim > & get_boundary_composition_manager () const
 
const std::map< types::boundary_id, std::unique_ptr< BoundaryTraction::Interface< dim > > > & get_boundary_traction () const
 
DEAL_II_DEPRECATED const InitialTemperature::Interface< dim > & get_initial_temperature () const
 
const InitialTemperature::Manager< dim > & get_initial_temperature_manager () const
 
DEAL_II_DEPRECATED const InitialComposition::Interface< dim > & get_initial_composition () const
 
const InitialComposition::Manager< dim > & get_initial_composition_manager () const
 
const std::set< types::boundary_id > & get_fixed_temperature_boundary_indicators () const
 
const std::set< types::boundary_id > & get_fixed_heat_flux_boundary_indicators () const
 
const std::set< types::boundary_id > & get_fixed_composition_boundary_indicators () const
 
const std::set< types::boundary_id > & get_mesh_deformation_boundary_indicators () const
 
const BoundaryVelocity::Manager< dim > & get_boundary_velocity_manager () const
 
const HeatingModel::Manager< dim > & get_heating_model_manager () const
 
const MeshRefinement::Manager< dim > & get_mesh_refinement_manager () const
 
const MeltHandler< dim > & get_melt_handler () const
 
const VolumeOfFluidHandler< dim > & get_volume_of_fluid_handler () const
 
const NewtonHandler< dim > & get_newton_handler () const
 
const MeshDeformation::MeshDeformationHandler< dim > & get_mesh_deformation_handler () const
 
const LateralAveraging< dim > & get_lateral_averaging () const
 
const AffineConstraints< double > & get_current_constraints () const
 
bool simulator_is_past_initialization () const
 
double get_pressure_scaling () const
 
bool pressure_rhs_needs_compatibility_modification () const
 
bool model_has_prescribed_stokes_solution () const
 
TableHandlerget_statistics_object () const
 
template<typename PostprocessorType >
DEAL_II_DEPRECATED PostprocessorType * find_postprocessor () const
 
const Postprocess::Manager< dim > & get_postprocess_manager () const
 
const Particle::World< dim > & get_particle_world () const
 
Particle::World< dim > & get_particle_world ()
 
bool is_stokes_matrix_free ()
 
const StokesMatrixFreeHandler< dim > & get_stokes_matrix_free () const
 
RotationProperties< dim > compute_net_angular_momentum (const bool use_constant_density, const LinearAlgebra::BlockVector &solution, const bool limit_to_top_faces=false) const
 

Static Public Member Functions

static void declare_parameters (ParameterHandler &prm)
 
- Static Public Member Functions inherited from aspect::SimulatorAccess< dim >
static void get_composition_values_at_q_point (const std::vector< std::vector< double > > &composition_values, const unsigned int q, std::vector< double > &composition_values_at_q_point)
 

Private Attributes

std::vector< double > prefactors_dislocation
 
std::vector< double > stress_exponents_dislocation
 
std::vector< double > activation_energies_dislocation
 
std::vector< double > activation_volumes_dislocation
 

Detailed Description

template<int dim>
class aspect::MaterialModel::Rheology::DislocationCreep< dim >

Definition at line 51 of file dislocation_creep.h.

Constructor & Destructor Documentation

§ DislocationCreep()

Constructor.

Member Function Documentation

§ declare_parameters()

template<int dim>
static void aspect::MaterialModel::Rheology::DislocationCreep< dim >::declare_parameters ( ParameterHandler prm)
static

Declare the parameters this function takes through input files.

§ parse_parameters()

template<int dim>
void aspect::MaterialModel::Rheology::DislocationCreep< dim >::parse_parameters ( ParameterHandler prm,
const std::shared_ptr< std::vector< unsigned int >> &  expected_n_phases_per_composition = std::shared_ptr< std::vector< unsigned int >>() 
)

Read the parameters this class declares from the parameter file. If expected_n_phases_per_composition points to a vector of unsigned integers this is considered the number of phase transitions for each compositional field and will be checked against the parsed parameters.

§ compute_creep_parameters()

template<int dim>
const DislocationCreepParameters aspect::MaterialModel::Rheology::DislocationCreep< dim >::compute_creep_parameters ( const unsigned int  composition,
const std::vector< double > &  phase_function_values = std::vector< double >(),
const std::vector< unsigned int > &  n_phases_per_composition = std::vector< unsigned int >() 
) const

Compute the creep parameters for the dislocation creep law. If expected_n_phases_per_composition points to a vector of unsigned integers this is considered the number of phase transitions for each compositional field and viscosity will be first computed on each phase and then averaged for each compositional field.

§ compute_viscosity()

template<int dim>
double aspect::MaterialModel::Rheology::DislocationCreep< dim >::compute_viscosity ( const double  strain_rate,
const double  pressure,
const double  temperature,
const unsigned int  composition,
const std::vector< double > &  phase_function_values = std::vector< double >(),
const std::vector< unsigned int > &  n_phases_per_composition = std::vector< unsigned int >() 
) const

Compute the viscosity based on the dislocation creep law. If expected_n_phases_per_composition points to a vector of unsigned integers this is considered the number of phase transitions for each compositional field and viscosity will be first computed on each phase and then averaged for each compositional field.

§ compute_strain_rate_and_derivative()

template<int dim>
std::pair<double, double> aspect::MaterialModel::Rheology::DislocationCreep< dim >::compute_strain_rate_and_derivative ( const double  stress,
const double  pressure,
const double  temperature,
const DislocationCreepParameters  creep_parameters 
) const

Compute the strain rate and first stress derivative as a function of stress based on the dislocation creep law. If expected_n_phases_per_composition points to a vector of unsigned integers this is considered the number of phase transitions for each compositional field and viscosity will be first computed on each phase and then averaged for each compositional field.

Member Data Documentation

§ prefactors_dislocation

template<int dim>
std::vector<double> aspect::MaterialModel::Rheology::DislocationCreep< dim >::prefactors_dislocation
private

List of dislocation creep prefactors A.

Definition at line 124 of file dislocation_creep.h.

§ stress_exponents_dislocation

template<int dim>
std::vector<double> aspect::MaterialModel::Rheology::DislocationCreep< dim >::stress_exponents_dislocation
private

List of dislocation creep stress exponents n.

Definition at line 129 of file dislocation_creep.h.

§ activation_energies_dislocation

template<int dim>
std::vector<double> aspect::MaterialModel::Rheology::DislocationCreep< dim >::activation_energies_dislocation
private

List of dislocation creep activation energies E.

Definition at line 134 of file dislocation_creep.h.

§ activation_volumes_dislocation

template<int dim>
std::vector<double> aspect::MaterialModel::Rheology::DislocationCreep< dim >::activation_volumes_dislocation
private

List of dislocation creep activation volumes V.

Definition at line 139 of file dislocation_creep.h.


The documentation for this class was generated from the following file: