Classes
struct	ThermoMechanicsLocalAssemblerInterface

struct	IntegrationPointData

struct	SecondaryData

class	ThermoMechanicsLocalAssembler
	Local assembler of ThermoMechanics process. More...

class	ThermoMechanicsProcess

struct	ThermoMechanicsProcessData

Functions
void	checkMPLProperties (std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &media)

template<int DisplacementDim>
std::unique_ptr< Process >	createThermoMechanicsProcess (std::string name, MeshLib::Mesh &mesh, std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&jacobian_assembler, std::vector< ProcessVariable > const &variables, std::vector< std::unique_ptr< ParameterLib::ParameterBase >> const &parameters, std::optional< ParameterLib::CoordinateSystem > const &local_coordinate_system, unsigned const integration_order, BaseLib::ConfigTree const &config, std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &media)

template std::unique_ptr< Process >	createThermoMechanicsProcess< 2 > (std::string name, MeshLib::Mesh &mesh, std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&jacobian_assembler, std::vector< ProcessVariable > const &variables, std::vector< std::unique_ptr< ParameterLib::ParameterBase >> const &parameters, std::optional< ParameterLib::CoordinateSystem > const &local_coordinate_system, unsigned const integration_order, BaseLib::ConfigTree const &config, std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &media)

template std::unique_ptr< Process >	createThermoMechanicsProcess< 3 > (std::string name, MeshLib::Mesh &mesh, std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&jacobian_assembler, std::vector< ProcessVariable > const &variables, std::vector< std::unique_ptr< ParameterLib::ParameterBase >> const &parameters, std::optional< ParameterLib::CoordinateSystem > const &local_coordinate_system, unsigned const integration_order, BaseLib::ConfigTree const &config, std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &media)

Function Documentation

◆ checkMPLProperties()

void ProcessLib::ThermoMechanics::checkMPLProperties ( std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const & media )

Definition at line 30 of file CreateThermoMechanicsProcess.cpp.

 {
     std::array const required_solid_properties = {
         MaterialPropertyLib::density, MaterialPropertyLib::thermal_expansivity,
         MaterialPropertyLib::thermal_conductivity,
         MaterialPropertyLib::specific_heat_capacity};
  
     for (auto const& m : media)
     {
         checkRequiredProperties(m.second->phase("Solid"),
                                 required_solid_properties);
     }
 }

References MaterialPropertyLib::checkRequiredProperties(), MaterialPropertyLib::density, MaterialPropertyLib::specific_heat_capacity, MaterialPropertyLib::thermal_conductivity, and MaterialPropertyLib::thermal_expansivity.

Referenced by createThermoMechanicsProcess().

◆ createThermoMechanicsProcess()

template<int DisplacementDim>

std::unique_ptr< Process > ProcessLib::ThermoMechanics::createThermoMechanicsProcess	(	std::string	name,
		MeshLib::Mesh &	mesh,
		std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&	jacobian_assembler,
		std::vector< ProcessVariable > const &	variables,
		std::vector< std::unique_ptr< ParameterLib::ParameterBase >> const &	parameters,
		std::optional< ParameterLib::CoordinateSystem > const &	local_coordinate_system,
		unsigned const	integration_order,
		BaseLib::ConfigTree const &	config,
		std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &	media
	)

Input File Parameter:: prj__processes__process__type

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__coupling_scheme

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__process_variables

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__process_variables__temperature

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__process_variables__displacement

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__constitutive_relation

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__specific_body_force

Input File Parameter:: prj__processes__process__THERMO_MECHANICS__initial_stress

Definition at line 46 of file CreateThermoMechanicsProcess.cpp.

 {
     config.checkConfigParameter("type", "THERMO_MECHANICS");
     DBUG("Create ThermoMechanicsProcess.");
  
     auto const coupling_scheme =
         config.getConfigParameterOptional<std::string>("coupling_scheme");
     const bool use_monolithic_scheme =
         !(coupling_scheme && (*coupling_scheme == "staggered"));
  
     // Process variable.
  
     auto const pv_config = config.getConfigSubtree("process_variables");
  
     // Process IDs, which are set according to the appearance order of the
     int heat_conduction_process_id = 0;
     int mechanics_process_id = 0;
  
     ProcessVariable* variable_T;
     ProcessVariable* variable_u;
     std::vector<std::vector<std::reference_wrapper<ProcessVariable>>>
         process_variables;
     if (use_monolithic_scheme)  // monolithic scheme.
     {
         auto per_process_variables = findProcessVariables(
             variables, pv_config,
             {
              "temperature",
              "displacement"});
         variable_T = &per_process_variables[0].get();
         variable_u = &per_process_variables[1].get();
         process_variables.push_back(std::move(per_process_variables));
     }
     else  // staggered scheme.
     {
         using namespace std::string_literals;
         for (auto const& variable_name : {"temperature"s, "displacement"s})
         {
             auto per_process_variables =
                 findProcessVariables(variables, pv_config, {variable_name});
             process_variables.push_back(std::move(per_process_variables));
         }
         variable_T = &process_variables[0][0].get();
         variable_u = &process_variables[1][0].get();
         // process variables. Up to now, the ordering is fixed as:
         heat_conduction_process_id = 0;
         mechanics_process_id = 1;
     }
  
     DBUG("Associate displacement with process variable '{:s}'.",
          variable_u->getName());
  
     if (variable_u->getNumberOfGlobalComponents() != DisplacementDim)
     {
         OGS_FATAL(
             "Number of components of the process variable '{:s}' is different "
             "from the displacement dimension: got {:d}, expected {:d}",
             variable_u->getName(),
             variable_u->getNumberOfGlobalComponents(),
             DisplacementDim);
     }
  
     DBUG("Associate temperature with process variable '{:s}'.",
          variable_T->getName());
     if (variable_T->getNumberOfGlobalComponents() != 1)
     {
         OGS_FATAL(
             "Pressure process variable '{:s}' is not a scalar variable but has "
             "{:d} components.",
             variable_T->getName(),
             variable_T->getNumberOfGlobalComponents());
     }
  
     config.peekConfigParameter<std::string>("constitutive_relation");
     auto solid_constitutive_relations =
         MaterialLib::Solids::createConstitutiveRelations<DisplacementDim>(
             parameters, local_coordinate_system, config);
  
     // Specific body force
     Eigen::Matrix<double, DisplacementDim, 1> specific_body_force;
     {
         std::vector<double> const b =
             config.getConfigParameter<std::vector<double>>(
                 "specific_body_force");
         if (b.size() != DisplacementDim)
         {
             OGS_FATAL(
                 "The size of the specific body force vector does not match the "
                 "displacement dimension. Vector size is {:d}, displacement "
                 "dimension is {:d}",
                 b.size(), DisplacementDim);
         }
  
         std::copy_n(b.data(), b.size(), specific_body_force.data());
     }
  
     // Initial stress conditions
     auto const initial_stress = ParameterLib::findOptionalTagParameter<double>(
         config, "initial_stress", parameters,
         // Symmetric tensor size, 4 or 6, not a Kelvin vector.
         MathLib::KelvinVector::kelvin_vector_dimensions(DisplacementDim),
         &mesh);
  
     auto media_map =
         MaterialPropertyLib::createMaterialSpatialDistributionMap(media, mesh);
     DBUG("Check the solid properties of ThermoMechanics process ...");
     checkMPLProperties(media);
     DBUG("Solid properties verified.");
  
     ThermoMechanicsProcessData<DisplacementDim> process_data{
         materialIDs(mesh),
         std::move(media_map),
         std::move(solid_constitutive_relations),
         initial_stress,
         specific_body_force,
         mechanics_process_id,
         heat_conduction_process_id};
  
     SecondaryVariableCollection secondary_variables;
  
     ProcessLib::createSecondaryVariables(config, secondary_variables);
  
     return std::make_unique<ThermoMechanicsProcess<DisplacementDim>>(
         std::move(name), mesh, std::move(jacobian_assembler), parameters,
         integration_order, std::move(process_variables),
         std::move(process_data), std::move(secondary_variables),
         use_monolithic_scheme);
 }

References BaseLib::ConfigTree::checkConfigParameter(), checkMPLProperties(), MaterialPropertyLib::createMaterialSpatialDistributionMap(), ProcessLib::createSecondaryVariables(), DBUG(), ProcessLib::findProcessVariables(), BaseLib::ConfigTree::getConfigParameter(), BaseLib::ConfigTree::getConfigParameterOptional(), BaseLib::ConfigTree::getConfigSubtree(), ProcessLib::ProcessVariable::getName(), ProcessLib::ProcessVariable::getNumberOfGlobalComponents(), MathLib::KelvinVector::kelvin_vector_dimensions(), MeshLib::materialIDs(), MaterialPropertyLib::name, OGS_FATAL, and BaseLib::ConfigTree::peekConfigParameter().

◆ createThermoMechanicsProcess< 2 >()

template std::unique_ptr< Process > ProcessLib::ThermoMechanics::createThermoMechanicsProcess< 2 >	(	std::string	name,
		MeshLib::Mesh &	mesh,
		std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&	jacobian_assembler,
		std::vector< ProcessVariable > const &	variables,
		std::vector< std::unique_ptr< ParameterLib::ParameterBase >> const &	parameters,
		std::optional< ParameterLib::CoordinateSystem > const &	local_coordinate_system,
		unsigned const	integration_order,
		BaseLib::ConfigTree const &	config,
		std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &	media
	)

Referenced by ProjectData::parseProcesses().

◆ createThermoMechanicsProcess< 3 >()

template std::unique_ptr< Process > ProcessLib::ThermoMechanics::createThermoMechanicsProcess< 3 >	(	std::string	name,
		MeshLib::Mesh &	mesh,
		std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&	jacobian_assembler,
		std::vector< ProcessVariable > const &	variables,
		std::vector< std::unique_ptr< ParameterLib::ParameterBase >> const &	parameters,
		std::optional< ParameterLib::CoordinateSystem > const &	local_coordinate_system,
		unsigned const	integration_order,
		BaseLib::ConfigTree const &	config,
		std::map< int, std::shared_ptr< MaterialPropertyLib::Medium >> const &	media
	)

Referenced by ProjectData::parseProcesses().

Classes

Functions

Function Documentation

◆ checkMPLProperties()

◆ createThermoMechanicsProcess()

◆ createThermoMechanicsProcess< 2 >()

◆ createThermoMechanicsProcess< 3 >()