TC-Python API reference documentation¶
- Installation Guide
- What type of installation should I choose?
- Using the Python-interpreter bundled to Thermo-Calc
- Installing TC-Python into the Python-interpreter of your choice
- Updating to a newer version
- Mac OS: Setting Environment Variables
- Architecture overview
- Best Practices
- Re-use of the single equilibrium calculation state
- Re-use and saving of results
- All TC-Python objects are non-copyable
- Python Virtual Environments
- Using with TCPython() efficiently
- Parallel calculations
- Handling crashes of the calculation engine
- Using TC-Python within a Jupyter Notebook or the Python console
- Property Model Framework
- Process Metallurgy Calculations
- API Reference
- Calculations
- Module “single_equilibrium”
AbstractSingleEquilibriumCalculationAbstractSingleEquilibriumCalculation.disable_global_minimization()AbstractSingleEquilibriumCalculation.enable_global_minimization()AbstractSingleEquilibriumCalculation.get_components()AbstractSingleEquilibriumCalculation.get_gibbs_energy_addition_for()AbstractSingleEquilibriumCalculation.get_system_data()AbstractSingleEquilibriumCalculation.run_poly_command()AbstractSingleEquilibriumCalculation.set_component_to_entered()AbstractSingleEquilibriumCalculation.set_component_to_suspended()AbstractSingleEquilibriumCalculation.set_gibbs_energy_addition_for()AbstractSingleEquilibriumCalculation.set_phase_to_dormant()AbstractSingleEquilibriumCalculation.set_phase_to_entered()AbstractSingleEquilibriumCalculation.set_phase_to_fixed()AbstractSingleEquilibriumCalculation.set_phase_to_suspended()AbstractSingleEquilibriumCalculation.with_options()AbstractSingleEquilibriumCalculation.with_reference_state()AbstractSingleEquilibriumCalculation.with_system_modifications()
SingleEquilibriumCalculationSingleEquilibriumCalculation.bookmark_state()SingleEquilibriumCalculation.calculate()SingleEquilibriumCalculation.calculate_with_state()SingleEquilibriumCalculation.disable_global_minimization()SingleEquilibriumCalculation.enable_global_minimization()SingleEquilibriumCalculation.get_components()SingleEquilibriumCalculation.get_gibbs_energy_addition_for()SingleEquilibriumCalculation.get_interfacial_energy()SingleEquilibriumCalculation.get_system_data()SingleEquilibriumCalculation.remove_all_conditions()SingleEquilibriumCalculation.remove_condition()SingleEquilibriumCalculation.run_poly_command()SingleEquilibriumCalculation.set_component_to_entered()SingleEquilibriumCalculation.set_component_to_suspended()SingleEquilibriumCalculation.set_condition()SingleEquilibriumCalculation.set_gibbs_energy_addition_for()SingleEquilibriumCalculation.set_phase_to_dormant()SingleEquilibriumCalculation.set_phase_to_entered()SingleEquilibriumCalculation.set_phase_to_fixed()SingleEquilibriumCalculation.set_phase_to_suspended()SingleEquilibriumCalculation.set_state_to_bookmark()SingleEquilibriumCalculation.with_options()SingleEquilibriumCalculation.with_reference_state()SingleEquilibriumCalculation.with_system_modifications()
SingleEquilibriumOptionsSingleEquilibriumOptions.disable_approximate_driving_force_for_metastable_phases()SingleEquilibriumOptions.disable_control_step_size_during_minimization()SingleEquilibriumOptions.disable_force_positive_definite_phase_hessian()SingleEquilibriumOptions.enable_approximate_driving_force_for_metastable_phases()SingleEquilibriumOptions.enable_control_step_size_during_minimization()SingleEquilibriumOptions.enable_force_positive_definite_phase_hessian()SingleEquilibriumOptions.set_global_minimization_max_grid_points()SingleEquilibriumOptions.set_max_no_of_iterations()SingleEquilibriumOptions.set_required_accuracy()SingleEquilibriumOptions.set_smallest_fraction()
SingleEquilibriumResultSingleEquilibriumResult.change_pressure()SingleEquilibriumResult.change_temperature()SingleEquilibriumResult.get_components()SingleEquilibriumResult.get_conditions()SingleEquilibriumResult.get_phases()SingleEquilibriumResult.get_stable_phases()SingleEquilibriumResult.get_value_of()SingleEquilibriumResult.run_poly_command()SingleEquilibriumResult.save_to_disk()
SingleEquilibriumTempResultSingleEquilibriumTempResult.change_pressure()SingleEquilibriumTempResult.change_temperature()SingleEquilibriumTempResult.get_components()SingleEquilibriumTempResult.get_conditions()SingleEquilibriumTempResult.get_phases()SingleEquilibriumTempResult.get_stable_phases()SingleEquilibriumTempResult.get_value_of()SingleEquilibriumTempResult.run_poly_command()
- Module “batch_equilibrium”
BatchEquilibriumCalculationBatchEquilibriumCalculation.calculate()BatchEquilibriumCalculation.disable_global_minimization()BatchEquilibriumCalculation.enable_global_minimization()BatchEquilibriumCalculation.get_components()BatchEquilibriumCalculation.get_gibbs_energy_addition_for()BatchEquilibriumCalculation.get_system_data()BatchEquilibriumCalculation.remove_all_conditions()BatchEquilibriumCalculation.remove_condition()BatchEquilibriumCalculation.run_poly_command()BatchEquilibriumCalculation.set_component_to_entered()BatchEquilibriumCalculation.set_component_to_suspended()BatchEquilibriumCalculation.set_condition()BatchEquilibriumCalculation.set_conditions_for_equilibria()BatchEquilibriumCalculation.set_gibbs_energy_addition_for()BatchEquilibriumCalculation.set_phase_to_dormant()BatchEquilibriumCalculation.set_phase_to_entered()BatchEquilibriumCalculation.set_phase_to_fixed()BatchEquilibriumCalculation.set_phase_to_suspended()BatchEquilibriumCalculation.with_options()BatchEquilibriumCalculation.with_reference_state()BatchEquilibriumCalculation.with_system_modifications()
BatchEquilibriumResult
- Module “precipitation”
FixedGrainSizeGrainGrowthGrainGrowthModelGrainSizeDistributionGrowthRateModelMatrixPhaseMatrixPhase.add_precipitate_phase()MatrixPhase.set_dislocation_density()MatrixPhase.set_mobility_enhancement_activation_energy()MatrixPhase.set_mobility_enhancement_prefactor()MatrixPhase.set_molar_volume()MatrixPhase.with_elastic_properties_cubic()MatrixPhase.with_elastic_properties_disregard()MatrixPhase.with_elastic_properties_isotropic()MatrixPhase.with_grain_growth_model()
NumericalParametersNumericalParameters.set_max_overall_volume_change()NumericalParameters.set_max_radius_points_per_magnitude()NumericalParameters.set_max_rel_change_critical_radius()NumericalParameters.set_max_rel_change_nucleation_rate_log()NumericalParameters.set_max_rel_radius_change()NumericalParameters.set_max_rel_solute_composition_change()NumericalParameters.set_max_time_step()NumericalParameters.set_max_time_step_during_heating()NumericalParameters.set_max_volume_fraction_dissolve_time_step()NumericalParameters.set_min_radius_nucleus_as_particle()NumericalParameters.set_min_radius_points_per_magnitude()NumericalParameters.set_radius_points_per_magnitude()NumericalParameters.set_rel_radius_change_class_collision()
ParticleSizeDistributionPrecipitateElasticPropertiesPrecipitateMorphologyPrecipitatePhasePrecipitatePhase.disable_calculate_aspect_ratio_from_elastic_energy()PrecipitatePhase.disable_driving_force_approximation()PrecipitatePhase.enable_calculate_aspect_ratio_from_elastic_energy()PrecipitatePhase.enable_driving_force_approximation()PrecipitatePhase.set_alias()PrecipitatePhase.set_aspect_ratio_value()PrecipitatePhase.set_gibbs_energy_addition()PrecipitatePhase.set_interfacial_energy()PrecipitatePhase.set_interfacial_energy_estimation_prefactor()PrecipitatePhase.set_molar_volume()PrecipitatePhase.set_nucleation_at_dislocations()PrecipitatePhase.set_nucleation_at_grain_boundaries()PrecipitatePhase.set_nucleation_at_grain_corners()PrecipitatePhase.set_nucleation_at_grain_edges()PrecipitatePhase.set_nucleation_in_bulk()PrecipitatePhase.set_phase_boundary_mobility()PrecipitatePhase.set_precipitate_morphology()PrecipitatePhase.set_transformation_strain_calculation_option()PrecipitatePhase.with_elastic_properties()PrecipitatePhase.with_growth_rate_model()PrecipitatePhase.with_particle_size_distribution()
PrecipitationCCTCalculationPrecipitationCCTCalculation.calculate()PrecipitationCCTCalculation.get_system_data()PrecipitationCCTCalculation.set_composition()PrecipitationCCTCalculation.set_composition_unit()PrecipitationCCTCalculation.set_cooling_rates()PrecipitationCCTCalculation.set_max_temperature()PrecipitationCCTCalculation.set_min_temperature()PrecipitationCCTCalculation.stop_at_volume_fraction_of_phase()PrecipitationCCTCalculation.with_matrix_phase()PrecipitationCCTCalculation.with_numerical_parameters()PrecipitationCCTCalculation.with_system_modifications()
PrecipitationCalculationResultPrecipitationCalculationSingleResultPrecipitationCalculationSingleResult.get_aspect_ratio_distribution_for_particle_length_of()PrecipitationCalculationSingleResult.get_aspect_ratio_distribution_for_radius_of()PrecipitationCalculationSingleResult.get_critical_radius_of()PrecipitationCalculationSingleResult.get_cubic_factor_distribution_for_particle_length_of()PrecipitationCalculationSingleResult.get_cubic_factor_distribution_for_radius_of()PrecipitationCalculationSingleResult.get_driving_force_of()PrecipitationCalculationSingleResult.get_grain_critical_radius()PrecipitationCalculationSingleResult.get_grain_mean_radius()PrecipitationCalculationSingleResult.get_grain_number_density()PrecipitationCalculationSingleResult.get_grain_number_density_distribution_for_length()PrecipitationCalculationSingleResult.get_grain_number_density_distribution_for_radius()PrecipitationCalculationSingleResult.get_grain_size_distribution()PrecipitationCalculationSingleResult.get_matrix_composition_in_mole_fraction_of()PrecipitationCalculationSingleResult.get_matrix_composition_in_weight_fraction_of()PrecipitationCalculationSingleResult.get_mean_aspect_ratio_of()PrecipitationCalculationSingleResult.get_mean_cubic_factor_of()PrecipitationCalculationSingleResult.get_mean_particle_length_of()PrecipitationCalculationSingleResult.get_mean_radius_of()PrecipitationCalculationSingleResult.get_normalized_grain_size_distribution()PrecipitationCalculationSingleResult.get_normalized_number_density_distribution_of()PrecipitationCalculationSingleResult.get_nucleation_rate_of()PrecipitationCalculationSingleResult.get_number_density_distribution_for_particle_length_of()PrecipitationCalculationSingleResult.get_number_density_distribution_for_radius_of()PrecipitationCalculationSingleResult.get_number_density_of()PrecipitationCalculationSingleResult.get_precipitate_composition_in_mole_fraction_of()PrecipitationCalculationSingleResult.get_precipitate_composition_in_weight_fraction_of()PrecipitationCalculationSingleResult.get_size_distribution_for_particle_length_of()PrecipitationCalculationSingleResult.get_size_distribution_for_radius_of()PrecipitationCalculationSingleResult.get_volume_fraction_of()
PrecipitationCalculationTTTorCCTResultPrecipitationIsoThermalCalculationPrecipitationIsoThermalCalculation.calculate()PrecipitationIsoThermalCalculation.get_system_data()PrecipitationIsoThermalCalculation.set_composition()PrecipitationIsoThermalCalculation.set_composition_unit()PrecipitationIsoThermalCalculation.set_simulation_time()PrecipitationIsoThermalCalculation.set_temperature()PrecipitationIsoThermalCalculation.with_matrix_phase()PrecipitationIsoThermalCalculation.with_numerical_parameters()PrecipitationIsoThermalCalculation.with_system_modifications()
PrecipitationNonIsoThermalCalculationPrecipitationNonIsoThermalCalculation.calculate()PrecipitationNonIsoThermalCalculation.get_system_data()PrecipitationNonIsoThermalCalculation.set_composition()PrecipitationNonIsoThermalCalculation.set_composition_unit()PrecipitationNonIsoThermalCalculation.set_simulation_time()PrecipitationNonIsoThermalCalculation.with_matrix_phase()PrecipitationNonIsoThermalCalculation.with_numerical_parameters()PrecipitationNonIsoThermalCalculation.with_system_modifications()PrecipitationNonIsoThermalCalculation.with_temperature_profile()
PrecipitationTTTCalculationPrecipitationTTTCalculation.calculate()PrecipitationTTTCalculation.get_system_data()PrecipitationTTTCalculation.set_composition()PrecipitationTTTCalculation.set_composition_unit()PrecipitationTTTCalculation.set_max_annealing_time()PrecipitationTTTCalculation.set_max_temperature()PrecipitationTTTCalculation.set_min_temperature()PrecipitationTTTCalculation.set_temperature_step()PrecipitationTTTCalculation.stop_at_percent_of_equilibrium_fraction()PrecipitationTTTCalculation.stop_at_volume_fraction_of_phase()PrecipitationTTTCalculation.with_matrix_phase()PrecipitationTTTCalculation.with_numerical_parameters()PrecipitationTTTCalculation.with_system_modifications()
TransformationStrainCalculationOptionVolumeFractionOfPhaseType
- Module “scheil”
CalculateSecondaryDendriteArmSpacingConstantSecondaryDendriteArmSpacingScheilBackDiffusionScheilCalculationScheilCalculation.calculate()ScheilCalculation.disable_global_minimization()ScheilCalculation.enable_global_minimization()ScheilCalculation.get_system_data()ScheilCalculation.set_composition()ScheilCalculation.set_composition_unit()ScheilCalculation.set_start_temperature()ScheilCalculation.with_calculation_type()ScheilCalculation.with_options()ScheilCalculation.with_system_modifications()
ScheilCalculationResultScheilCalculationTypeScheilClassicScheilOptionsScheilOptions.calculate_from_gas()ScheilOptions.calculate_from_liquidus()ScheilOptions.calculate_from_start_temperature()ScheilOptions.calculate_to_end_of_scheil()ScheilOptions.calculate_to_temperature_below_solidus()ScheilOptions.disable_approximate_driving_force_for_metastable_phases()ScheilOptions.disable_control_step_size_during_minimization()ScheilOptions.disable_equilibrium_solidification_calculation()ScheilOptions.disable_evaporation_property_calculation()ScheilOptions.disable_force_positive_definite_phase_hessian()ScheilOptions.enable_approximate_driving_force_for_metastable_phases()ScheilOptions.enable_control_step_size_during_minimization()ScheilOptions.enable_equilibrium_solidification_calculation()ScheilOptions.enable_evaporation_property_calculation()ScheilOptions.enable_force_positive_definite_phase_hessian()ScheilOptions.set_gas_phase()ScheilOptions.set_global_minimization_max_grid_points()ScheilOptions.set_global_minimization_test_interval()ScheilOptions.set_liquid_phase()ScheilOptions.set_max_no_of_iterations()ScheilOptions.set_required_accuracy()ScheilOptions.set_smallest_fraction()ScheilOptions.set_temperature_step()ScheilOptions.terminate_on_fraction_of_liquid_phase()ScheilOptions.terminate_on_temperature()
ScheilSoluteTrapping
- Module “step_or_map_diagrams”
AbstractAxisTypeAbstractPhaseDiagramCalculationAbstractPhaseDiagramCalculation.add_initial_equilibrium()AbstractPhaseDiagramCalculation.calculate()AbstractPhaseDiagramCalculation.disable_global_minimization()AbstractPhaseDiagramCalculation.dont_keep_default_equilibria()AbstractPhaseDiagramCalculation.enable_global_minimization()AbstractPhaseDiagramCalculation.get_components()AbstractPhaseDiagramCalculation.get_gibbs_energy_addition_for()AbstractPhaseDiagramCalculation.get_system_data()AbstractPhaseDiagramCalculation.keep_default_equilibria()AbstractPhaseDiagramCalculation.remove_all_initial_equilibria()AbstractPhaseDiagramCalculation.run_poly_command()AbstractPhaseDiagramCalculation.set_gibbs_energy_addition_for()AbstractPhaseDiagramCalculation.set_phase_to_dormant()AbstractPhaseDiagramCalculation.set_phase_to_entered()AbstractPhaseDiagramCalculation.set_phase_to_fixed()AbstractPhaseDiagramCalculation.set_phase_to_suspended()AbstractPhaseDiagramCalculation.with_options()AbstractPhaseDiagramCalculation.with_reference_state()AbstractPhaseDiagramCalculation.with_system_modifications()
AbstractPropertyDiagramCalculationAbstractPropertyDiagramCalculation.calculate()AbstractPropertyDiagramCalculation.disable_global_minimization()AbstractPropertyDiagramCalculation.disable_step_separate_phases()AbstractPropertyDiagramCalculation.enable_global_minimization()AbstractPropertyDiagramCalculation.enable_step_separate_phases()AbstractPropertyDiagramCalculation.get_components()AbstractPropertyDiagramCalculation.get_gibbs_energy_addition_for()AbstractPropertyDiagramCalculation.get_system_data()AbstractPropertyDiagramCalculation.run_poly_command()AbstractPropertyDiagramCalculation.set_gibbs_energy_addition_for()AbstractPropertyDiagramCalculation.set_phase_to_dormant()AbstractPropertyDiagramCalculation.set_phase_to_entered()AbstractPropertyDiagramCalculation.set_phase_to_fixed()AbstractPropertyDiagramCalculation.set_phase_to_suspended()AbstractPropertyDiagramCalculation.with_options()AbstractPropertyDiagramCalculation.with_reference_state()AbstractPropertyDiagramCalculation.with_system_modifications()
AxisTypeCalculationAxisDirectionInitialEquilibriumLinearLogarithmicPhaseDiagramCalculationPhaseDiagramCalculation.add_initial_equilibrium()PhaseDiagramCalculation.calculate()PhaseDiagramCalculation.disable_global_minimization()PhaseDiagramCalculation.dont_keep_default_equilibria()PhaseDiagramCalculation.enable_global_minimization()PhaseDiagramCalculation.get_components()PhaseDiagramCalculation.get_gibbs_energy_addition_for()PhaseDiagramCalculation.get_system_data()PhaseDiagramCalculation.keep_default_equilibria()PhaseDiagramCalculation.remove_all_conditions()PhaseDiagramCalculation.remove_all_initial_equilibria()PhaseDiagramCalculation.remove_condition()PhaseDiagramCalculation.run_poly_command()PhaseDiagramCalculation.set_condition()PhaseDiagramCalculation.set_gibbs_energy_addition_for()PhaseDiagramCalculation.set_phase_to_dormant()PhaseDiagramCalculation.set_phase_to_entered()PhaseDiagramCalculation.set_phase_to_fixed()PhaseDiagramCalculation.set_phase_to_suspended()PhaseDiagramCalculation.with_first_axis()PhaseDiagramCalculation.with_options()PhaseDiagramCalculation.with_reference_state()PhaseDiagramCalculation.with_second_axis()PhaseDiagramCalculation.with_system_modifications()
PhaseDiagramOptionsPhaseDiagramOptions.disable_approximate_driving_force_for_metastable_phases()PhaseDiagramOptions.disable_control_step_size_during_minimization()PhaseDiagramOptions.disable_force_positive_definite_phase_hessian()PhaseDiagramOptions.dont_use_auto_start_points()PhaseDiagramOptions.dont_use_inside_mesh_points()PhaseDiagramOptions.enable_approximate_driving_force_for_metastable_phases()PhaseDiagramOptions.enable_control_step_size_during_minimization()PhaseDiagramOptions.enable_force_positive_definite_phase_hessian()PhaseDiagramOptions.set_global_minimization_max_grid_points()PhaseDiagramOptions.set_global_minimization_test_interval()PhaseDiagramOptions.set_max_no_of_iterations()PhaseDiagramOptions.set_no_of_mesh_along_axis()PhaseDiagramOptions.set_required_accuracy()PhaseDiagramOptions.set_smallest_fraction()PhaseDiagramOptions.use_auto_start_points()PhaseDiagramOptions.use_inside_mesh_points()
PhaseDiagramResultPhaseDiagramResultValuesPhaseLabelPhaseNameStylePropertyDiagramCalculationPropertyDiagramCalculation.calculate()PropertyDiagramCalculation.disable_global_minimization()PropertyDiagramCalculation.disable_step_separate_phases()PropertyDiagramCalculation.enable_global_minimization()PropertyDiagramCalculation.enable_step_separate_phases()PropertyDiagramCalculation.get_components()PropertyDiagramCalculation.get_gibbs_energy_addition_for()PropertyDiagramCalculation.get_system_data()PropertyDiagramCalculation.remove_all_conditions()PropertyDiagramCalculation.remove_condition()PropertyDiagramCalculation.run_poly_command()PropertyDiagramCalculation.set_condition()PropertyDiagramCalculation.set_gibbs_energy_addition_for()PropertyDiagramCalculation.set_phase_to_dormant()PropertyDiagramCalculation.set_phase_to_entered()PropertyDiagramCalculation.set_phase_to_fixed()PropertyDiagramCalculation.set_phase_to_suspended()PropertyDiagramCalculation.with_axis()PropertyDiagramCalculation.with_options()PropertyDiagramCalculation.with_reference_state()PropertyDiagramCalculation.with_system_modifications()
PropertyDiagramOptionsPropertyDiagramOptions.disable_approximate_driving_force_for_metastable_phases()PropertyDiagramOptions.disable_control_step_size_during_minimization()PropertyDiagramOptions.disable_force_positive_definite_phase_hessian()PropertyDiagramOptions.enable_approximate_driving_force_for_metastable_phases()PropertyDiagramOptions.enable_control_step_size_during_minimization()PropertyDiagramOptions.enable_force_positive_definite_phase_hessian()PropertyDiagramOptions.set_global_minimization_max_grid_points()PropertyDiagramOptions.set_global_minimization_test_interval()PropertyDiagramOptions.set_max_no_of_iterations()PropertyDiagramOptions.set_required_accuracy()PropertyDiagramOptions.set_smallest_fraction()
PropertyDiagramResult
- Module “diffusion”
AbstractBoundaryConditionAbstractCalculatedGridAbstractElementProfileAbstractGridAbstractSolverActivityFluxFunctionAutomaticSolverBoundaryConditionCalculatedGridClassicSolverClosedSystemCompositionProfileConstantProfileContinuedDiffusionCalculationContinuedDiffusionCalculation.calculate()ContinuedDiffusionCalculation.set_simulation_time()ContinuedDiffusionCalculation.with_left_boundary_condition()ContinuedDiffusionCalculation.with_options()ContinuedDiffusionCalculation.with_right_boundary_condition()ContinuedDiffusionCalculation.with_solver()ContinuedDiffusionCalculation.with_timestep_control()
DiffusionCalculationResultDiffusionCalculationResult.get_mass_fraction_at_lower_interface()DiffusionCalculationResult.get_mass_fraction_at_upper_interface()DiffusionCalculationResult.get_mass_fraction_of_component_at_time()DiffusionCalculationResult.get_mass_fraction_of_phase_at_time()DiffusionCalculationResult.get_mole_fraction_at_lower_interface()DiffusionCalculationResult.get_mole_fraction_at_upper_interface()DiffusionCalculationResult.get_mole_fraction_of_component_at_time()DiffusionCalculationResult.get_mole_fraction_of_phase_at_time()DiffusionCalculationResult.get_position_of_lower_boundary_of_region()DiffusionCalculationResult.get_position_of_upper_boundary_of_region()DiffusionCalculationResult.get_regions()DiffusionCalculationResult.get_time_steps()DiffusionCalculationResult.get_total_mass_fraction_of_component()DiffusionCalculationResult.get_total_mass_fraction_of_component_in_phase()DiffusionCalculationResult.get_total_mass_fraction_of_phase()DiffusionCalculationResult.get_total_mole_fraction_of_component()DiffusionCalculationResult.get_total_mole_fraction_of_component_in_phase()DiffusionCalculationResult.get_total_mole_fraction_of_phase()DiffusionCalculationResult.get_total_volume_fraction_of_phase()DiffusionCalculationResult.get_values_of()DiffusionCalculationResult.get_velocity_of_lower_boundary_of_region()DiffusionCalculationResult.get_velocity_of_upper_boundary_of_region()DiffusionCalculationResult.get_width_of_region()DiffusionCalculationResult.save_to_disk()DiffusionCalculationResult.with_continued_calculation()
DiffusionIsoThermalCalculationDiffusionIsoThermalCalculation.add_console_command()DiffusionIsoThermalCalculation.add_region()DiffusionIsoThermalCalculation.calculate()DiffusionIsoThermalCalculation.get_system_data()DiffusionIsoThermalCalculation.remove_all_console_commands()DiffusionIsoThermalCalculation.remove_all_regions()DiffusionIsoThermalCalculation.set_simulation_time()DiffusionIsoThermalCalculation.set_temperature()DiffusionIsoThermalCalculation.with_cylindrical_geometry()DiffusionIsoThermalCalculation.with_left_boundary_condition()DiffusionIsoThermalCalculation.with_options()DiffusionIsoThermalCalculation.with_planar_geometry()DiffusionIsoThermalCalculation.with_reference_state()DiffusionIsoThermalCalculation.with_right_boundary_condition()DiffusionIsoThermalCalculation.with_solver()DiffusionIsoThermalCalculation.with_spherical_geometry()DiffusionIsoThermalCalculation.with_system_modifications()DiffusionIsoThermalCalculation.with_timestep_control()
DiffusionNonIsoThermalCalculationDiffusionNonIsoThermalCalculation.add_console_command()DiffusionNonIsoThermalCalculation.add_region()DiffusionNonIsoThermalCalculation.calculate()DiffusionNonIsoThermalCalculation.get_system_data()DiffusionNonIsoThermalCalculation.remove_all_console_commands()DiffusionNonIsoThermalCalculation.remove_all_regions()DiffusionNonIsoThermalCalculation.set_simulation_time()DiffusionNonIsoThermalCalculation.with_cylindrical_geometry()DiffusionNonIsoThermalCalculation.with_left_boundary_condition()DiffusionNonIsoThermalCalculation.with_options()DiffusionNonIsoThermalCalculation.with_planar_geometry()DiffusionNonIsoThermalCalculation.with_reference_state()DiffusionNonIsoThermalCalculation.with_right_boundary_condition()DiffusionNonIsoThermalCalculation.with_solver()DiffusionNonIsoThermalCalculation.with_spherical_geometry()DiffusionNonIsoThermalCalculation.with_system_modifications()DiffusionNonIsoThermalCalculation.with_temperature_profile()DiffusionNonIsoThermalCalculation.with_timestep_control()
DoubleGeometricGridDoubleGeometricGrid.get_lower_geometrical_factor()DoubleGeometricGrid.get_no_of_points()DoubleGeometricGrid.get_type()DoubleGeometricGrid.get_upper_geometrical_factor()DoubleGeometricGrid.set_lower_geometrical_factor()DoubleGeometricGrid.set_no_of_points()DoubleGeometricGrid.set_upper_geometrical_factor()
ElementProfileFixFluxValueFixedCompositionsFunctionProfileGeneralLowerHashinShtrikmanGeneralLowerHashinShtrikmanExcludedPhaseGeneralUpperHashinShtrikmanGeneralUpperHashinShtrikmanExcludedPhaseGeometricGridGridPointHashinShtrikmanBoundMajorityHashinShtrikmanBoundMajorityExcludedPhaseHashinShtrikmanBoundPrescribedHashinShtrikmanBoundPrescribedExcludedPhaseHomogenizationFunctionHomogenizationFunctionsHomogenizationFunctions.general_lower_hashin_shtrikman()HomogenizationFunctions.general_lower_hashin_shtrikman_excluded_phase()HomogenizationFunctions.general_upper_hashin_shtrikman()HomogenizationFunctions.general_upper_hashin_shtrikman_excluded_phase()HomogenizationFunctions.hashin_shtrikman_bound_majority()HomogenizationFunctions.hashin_shtrikman_bound_majority_excluded_phase()HomogenizationFunctions.hashin_shtrikman_bound_prescribed()HomogenizationFunctions.hashin_shtrikman_bound_prescribed_excluded_phase()HomogenizationFunctions.inverse_rule_of_mixtures()HomogenizationFunctions.inverse_rule_of_mixtures_excluded_phase()HomogenizationFunctions.labyrinth_factor_f()HomogenizationFunctions.labyrinth_factor_f2()HomogenizationFunctions.rule_of_mixtures()HomogenizationFunctions.rule_of_mixtures_excluded_phase()
HomogenizationSolverHomogenizationSolver.disable_global_minimization()HomogenizationSolver.disable_interpolation_scheme()HomogenizationSolver.enable_global_minimization()HomogenizationSolver.get_type()HomogenizationSolver.set_fraction_of_free_memory_to_use()HomogenizationSolver.set_memory_to_use()HomogenizationSolver.with_function()HomogenizationSolver.with_linear_interpolation_scheme()HomogenizationSolver.with_logarithmic_interpolation_scheme()
InverseRuleOfMixturesInverseRuleOfMixturesExcludedPhaseLabyrinthFactorFLabyrinthFactorF2LinearGridLinearProfileMixedZeroFluxAndActivityOptionsOptions.disable_forced_starting_values_in_equilibrium_calculations()Options.disable_save_results_to_file()Options.enable_automatic_forced_starting_values_in_eq_calculations()Options.enable_forced_starting_values_in_equilibrium_calculations()Options.enable_save_results_to_file()Options.enable_time_integration_method_automatic()Options.enable_time_integration_method_euler_backwards()Options.enable_time_integration_method_trapezoidal()Options.set_default_driving_force_for_phases_allowed_to_form_at_interf()
PointByPointGridRegionRuleOfMixturesRuleOfMixturesExcludedPhaseSimulationTimeSolverStepProfileTimestepControlTimestepControl.disable_check_interface_position()TimestepControl.enable_automatic_check_interface_position()TimestepControl.enable_check_interface_position()TimestepControl.set_initial_time_step()TimestepControl.set_max_absolute_error()TimestepControl.set_max_relative_error()TimestepControl.set_max_timestep_allowed_as_percent_of_simulation_time()TimestepControl.set_max_timestep_increase_factor()TimestepControl.set_smallest_time_step_allowed()
Unit
- Module “propertymodel”
PropertyModelCalculationPropertyModelCalculation.add_poly_command()PropertyModelCalculation.calculate()PropertyModelCalculation.get_argument_default()PropertyModelCalculation.get_argument_description()PropertyModelCalculation.get_arguments()PropertyModelCalculation.get_dynamic_arguments()PropertyModelCalculation.get_model_description()PropertyModelCalculation.get_model_parameter_value()PropertyModelCalculation.get_model_parameters()PropertyModelCalculation.get_system_data()PropertyModelCalculation.invoke_dynamic_argument()PropertyModelCalculation.remove_all_conditions()PropertyModelCalculation.remove_all_poly_commands()PropertyModelCalculation.remove_dependent_element()PropertyModelCalculation.set_argument()PropertyModelCalculation.set_composition()PropertyModelCalculation.set_composition_unit()PropertyModelCalculation.set_condition()PropertyModelCalculation.set_dependent_element()PropertyModelCalculation.set_model_parameter()PropertyModelCalculation.set_temperature()PropertyModelCalculation.with_system_modifications()
PropertyModelResult
- Module “material_to_material”
AbstractConstantConditionAbstractMaterialToMaterialCalculationAxisConstantConditionFractionOfMaterialBAxisFractionOfMaterialBConditionMaterialToMaterialCalculationAxisMaterialToMaterialCalculationContainerMaterialToMaterialPhaseDiagramCalculationMaterialToMaterialPhaseDiagramCalculation.add_initial_equilibrium()MaterialToMaterialPhaseDiagramCalculation.calculate()MaterialToMaterialPhaseDiagramCalculation.disable_global_minimization()MaterialToMaterialPhaseDiagramCalculation.dont_keep_default_equilibria()MaterialToMaterialPhaseDiagramCalculation.enable_global_minimization()MaterialToMaterialPhaseDiagramCalculation.get_components()MaterialToMaterialPhaseDiagramCalculation.get_gibbs_energy_addition_for()MaterialToMaterialPhaseDiagramCalculation.get_system_data()MaterialToMaterialPhaseDiagramCalculation.keep_default_equilibria()MaterialToMaterialPhaseDiagramCalculation.remove_all_initial_equilibria()MaterialToMaterialPhaseDiagramCalculation.run_poly_command()MaterialToMaterialPhaseDiagramCalculation.set_activities()MaterialToMaterialPhaseDiagramCalculation.set_composition_unit()MaterialToMaterialPhaseDiagramCalculation.set_gibbs_energy_addition_for()MaterialToMaterialPhaseDiagramCalculation.set_material_a()MaterialToMaterialPhaseDiagramCalculation.set_material_b()MaterialToMaterialPhaseDiagramCalculation.set_phase_to_dormant()MaterialToMaterialPhaseDiagramCalculation.set_phase_to_entered()MaterialToMaterialPhaseDiagramCalculation.set_phase_to_fixed()MaterialToMaterialPhaseDiagramCalculation.set_phase_to_suspended()MaterialToMaterialPhaseDiagramCalculation.set_pressure()MaterialToMaterialPhaseDiagramCalculation.set_system_size()MaterialToMaterialPhaseDiagramCalculation.with_first_axis()MaterialToMaterialPhaseDiagramCalculation.with_options()MaterialToMaterialPhaseDiagramCalculation.with_reference_state()MaterialToMaterialPhaseDiagramCalculation.with_second_axis()MaterialToMaterialPhaseDiagramCalculation.with_system_modifications()
MaterialToMaterialPhaseDiagramResultMaterialToMaterialPhaseDiagramResult.add_coordinate_for_phase_label()MaterialToMaterialPhaseDiagramResult.get_values_grouped_by_quantity_of()MaterialToMaterialPhaseDiagramResult.get_values_grouped_by_stable_phases_of()MaterialToMaterialPhaseDiagramResult.remove_phase_labels()MaterialToMaterialPhaseDiagramResult.save_to_disk()MaterialToMaterialPhaseDiagramResult.set_phase_name_style()
MaterialToMaterialPropertyDiagramCalculationMaterialToMaterialPropertyDiagramCalculation.calculate()MaterialToMaterialPropertyDiagramCalculation.disable_global_minimization()MaterialToMaterialPropertyDiagramCalculation.disable_step_separate_phases()MaterialToMaterialPropertyDiagramCalculation.enable_global_minimization()MaterialToMaterialPropertyDiagramCalculation.enable_step_separate_phases()MaterialToMaterialPropertyDiagramCalculation.get_components()MaterialToMaterialPropertyDiagramCalculation.get_gibbs_energy_addition_for()MaterialToMaterialPropertyDiagramCalculation.get_system_data()MaterialToMaterialPropertyDiagramCalculation.run_poly_command()MaterialToMaterialPropertyDiagramCalculation.set_activities()MaterialToMaterialPropertyDiagramCalculation.set_composition_unit()MaterialToMaterialPropertyDiagramCalculation.set_gibbs_energy_addition_for()MaterialToMaterialPropertyDiagramCalculation.set_material_a()MaterialToMaterialPropertyDiagramCalculation.set_material_b()MaterialToMaterialPropertyDiagramCalculation.set_phase_to_dormant()MaterialToMaterialPropertyDiagramCalculation.set_phase_to_entered()MaterialToMaterialPropertyDiagramCalculation.set_phase_to_fixed()MaterialToMaterialPropertyDiagramCalculation.set_phase_to_suspended()MaterialToMaterialPropertyDiagramCalculation.set_pressure()MaterialToMaterialPropertyDiagramCalculation.set_system_size()MaterialToMaterialPropertyDiagramCalculation.with_axis()MaterialToMaterialPropertyDiagramCalculation.with_constant_condition()MaterialToMaterialPropertyDiagramCalculation.with_options()MaterialToMaterialPropertyDiagramCalculation.with_reference_state()MaterialToMaterialPropertyDiagramCalculation.with_system_modifications()
MaterialToMaterialPropertyDiagramResultMaterialToMaterialPropertyDiagramResult.get_values_grouped_by_quantity_of()MaterialToMaterialPropertyDiagramResult.get_values_grouped_by_stable_phases_of()MaterialToMaterialPropertyDiagramResult.get_values_of()MaterialToMaterialPropertyDiagramResult.save_to_disk()MaterialToMaterialPropertyDiagramResult.set_phase_name_style()
MaterialToMaterialSingleEquilibriumCalculationMaterialToMaterialSingleEquilibriumCalculation.calculate()MaterialToMaterialSingleEquilibriumCalculation.disable_global_minimization()MaterialToMaterialSingleEquilibriumCalculation.enable_global_minimization()MaterialToMaterialSingleEquilibriumCalculation.get_components()MaterialToMaterialSingleEquilibriumCalculation.get_gibbs_energy_addition_for()MaterialToMaterialSingleEquilibriumCalculation.get_system_data()MaterialToMaterialSingleEquilibriumCalculation.run_poly_command()MaterialToMaterialSingleEquilibriumCalculation.set_activities()MaterialToMaterialSingleEquilibriumCalculation.set_component_to_entered()MaterialToMaterialSingleEquilibriumCalculation.set_component_to_suspended()MaterialToMaterialSingleEquilibriumCalculation.set_composition_unit()MaterialToMaterialSingleEquilibriumCalculation.set_gibbs_energy_addition_for()MaterialToMaterialSingleEquilibriumCalculation.set_material_a()MaterialToMaterialSingleEquilibriumCalculation.set_material_b()MaterialToMaterialSingleEquilibriumCalculation.set_phase_to_dormant()MaterialToMaterialSingleEquilibriumCalculation.set_phase_to_entered()MaterialToMaterialSingleEquilibriumCalculation.set_phase_to_fixed()MaterialToMaterialSingleEquilibriumCalculation.set_phase_to_suspended()MaterialToMaterialSingleEquilibriumCalculation.set_pressure()MaterialToMaterialSingleEquilibriumCalculation.set_system_size()MaterialToMaterialSingleEquilibriumCalculation.with_first_constant_condition()MaterialToMaterialSingleEquilibriumCalculation.with_options()MaterialToMaterialSingleEquilibriumCalculation.with_reference_state()MaterialToMaterialSingleEquilibriumCalculation.with_second_constant_condition()MaterialToMaterialSingleEquilibriumCalculation.with_system_modifications()
MaterialToMaterialSingleEquilibriumResultMaterialToMaterialSingleEquilibriumResult.change_pressure()MaterialToMaterialSingleEquilibriumResult.change_temperature()MaterialToMaterialSingleEquilibriumResult.get_components()MaterialToMaterialSingleEquilibriumResult.get_conditions()MaterialToMaterialSingleEquilibriumResult.get_phases()MaterialToMaterialSingleEquilibriumResult.get_stable_phases()MaterialToMaterialSingleEquilibriumResult.get_value_of()MaterialToMaterialSingleEquilibriumResult.run_poly_command()MaterialToMaterialSingleEquilibriumResult.save_to_disk()
TemperatureAxisTemperatureCondition
- Package “process_metallurgy”
- Module “base”
- Module “equilibrium”
- Module “process”
AbstractContinuousAdditionAbstractProcessAdditionAbstractSingleTimeAdditionBulkZoneContinuousAdditionContinuousGasAdditionExhaustGasResultMassTransferCoefficientsMetalBulkZoneProcessSimulationCalculationProcessSimulationResultReactionZoneSingleTimeAdditionSingleTimeGasAdditionSlagBulkZoneTransferOfPhaseGroupZone
- Module “single_equilibrium”
- Module “system”
MultiDatabaseSystemBuilderMultiDatabaseSystemBuilder.create_and_select_species()MultiDatabaseSystemBuilder.deselect_constituent_on_sublattice()MultiDatabaseSystemBuilder.deselect_phase()MultiDatabaseSystemBuilder.deselect_species()MultiDatabaseSystemBuilder.get_system()MultiDatabaseSystemBuilder.select_constituent_on_sublattice()MultiDatabaseSystemBuilder.select_phase()MultiDatabaseSystemBuilder.select_species()MultiDatabaseSystemBuilder.with_new_composition_set()MultiDatabaseSystemBuilder.without_default_phases()
SystemSystem.convert_composition()System.get_all_elements_in_databases()System.get_all_phases_in_databases()System.get_all_species_in_databases()System.get_element_object()System.get_elements_in_system()System.get_phase_object()System.get_phases_in_system()System.get_references()System.get_species_in_system()System.get_species_object()System.get_system_data()System.with_batch_equilibrium_calculation()System.with_cct_precipitation_calculation()System.with_isothermal_diffusion_calculation()System.with_isothermal_precipitation_calculation()System.with_material_to_material()System.with_non_isothermal_diffusion_calculation()System.with_non_isothermal_precipitation_calculation()System.with_phase_diagram_calculation()System.with_property_diagram_calculation()System.with_property_model_calculation()System.with_scheil_calculation()System.with_single_equilibrium_calculation()System.with_ttt_precipitation_calculation()
SystemBuilderSystemBuilder.create_and_select_species()SystemBuilder.deselect_constituent_on_sublattice()SystemBuilder.deselect_phase()SystemBuilder.deselect_species()SystemBuilder.get_system()SystemBuilder.get_system_for_scheil_calculations()SystemBuilder.select_constituent_on_sublattice()SystemBuilder.select_database_and_elements()SystemBuilder.select_phase()SystemBuilder.select_species()SystemBuilder.select_user_database_and_elements()SystemBuilder.with_new_composition_set()SystemBuilder.without_default_phases()
- Module “entities”
- Module “server”
LoggingPolicyMetallurgyCalculationsResultLoaderSetUpSetUp.disable_caching()SetUp.get_database_info()SetUp.get_database_path_on_disk()SetUp.get_databases()SetUp.get_property_models()SetUp.load_result_from_disk()SetUp.select_database_and_elements()SetUp.select_thermodynamic_and_kinetic_databases_with_elements()SetUp.select_user_database_and_elements()SetUp.set_cache_folder()SetUp.set_ges_version()SetUp.set_log_level_to_debug()SetUp.set_log_level_to_info()SetUp.with_metallurgy()
TCPythonstart_api_server()start_matlab_server()stop_api_server()
- Module “quantity_factory”
DiffusionQuantityDiffusionQuantity.activity_of_component()DiffusionQuantity.chemical_diffusion_coefficient()DiffusionQuantity.chemical_potential_of_component()DiffusionQuantity.distance()DiffusionQuantity.intrinsic_diffusion_coefficient()DiffusionQuantity.l_bis()DiffusionQuantity.mass_fraction_of_a_component()DiffusionQuantity.mass_fraction_of_a_phase()DiffusionQuantity.mobility_of_component_in_phase()DiffusionQuantity.mole_fraction_of_a_component()DiffusionQuantity.mole_fraction_of_a_phase()DiffusionQuantity.position_of_lower_boundary_of_region()DiffusionQuantity.position_of_upper_boundary_of_region()DiffusionQuantity.temperature()DiffusionQuantity.thermodynamic_factor()DiffusionQuantity.time()DiffusionQuantity.total_mass_fraction_of_component()DiffusionQuantity.total_mass_fraction_of_component_in_phase()DiffusionQuantity.total_mass_fraction_of_phase()DiffusionQuantity.total_mole_fraction_of_component()DiffusionQuantity.total_mole_fraction_of_component_in_phase()DiffusionQuantity.total_volume_fraction_of_phase()DiffusionQuantity.tracer_diffusion_coefficient()DiffusionQuantity.u_fraction_of_a_component()DiffusionQuantity.user_defined_function()DiffusionQuantity.velocity_of_lower_boundary_of_region()DiffusionQuantity.velocity_of_upper_boundary_of_region()DiffusionQuantity.width_of_region()
IndependentVariablePlotConditionScheilQuantityScheilQuantity.apparent_heat_capacity_per_gram()ScheilQuantity.apparent_heat_capacity_per_mole()ScheilQuantity.apparent_volumetric_thermal_expansion_coefficient()ScheilQuantity.composition_of_phase_as_mole_fraction()ScheilQuantity.composition_of_phase_as_weight_fraction()ScheilQuantity.density_of_phase()ScheilQuantity.density_of_system()ScheilQuantity.distribution_of_component_of_phase()ScheilQuantity.heat_per_gram()ScheilQuantity.heat_per_mole()ScheilQuantity.latent_heat_per_gram()ScheilQuantity.latent_heat_per_mole()ScheilQuantity.mass_fraction_of_a_solid_phase()ScheilQuantity.mass_fraction_of_all_liquid()ScheilQuantity.mass_fraction_of_all_solid_phases()ScheilQuantity.molar_volume_of_phase()ScheilQuantity.molar_volume_of_system()ScheilQuantity.mole_fraction_of_a_solid_phase()ScheilQuantity.mole_fraction_of_all_liquid()ScheilQuantity.mole_fraction_of_all_solid_phases()ScheilQuantity.site_fraction_of_component_in_phase()ScheilQuantity.temperature()
ThermodynamicQuantityThermodynamicQuantity.activity_of_component()ThermodynamicQuantity.chemical_diffusion_coefficient()ThermodynamicQuantity.chemical_potential_of_component()ThermodynamicQuantity.composition_of_phase_as_mole_fraction()ThermodynamicQuantity.composition_of_phase_as_weight_fraction()ThermodynamicQuantity.gibbs_energy_of_a_phase()ThermodynamicQuantity.mass_fraction_of_a_component()ThermodynamicQuantity.mass_fraction_of_a_phase()ThermodynamicQuantity.mole_fraction_of_a_component()ThermodynamicQuantity.mole_fraction_of_a_phase()ThermodynamicQuantity.normalized_driving_force_of_a_phase()ThermodynamicQuantity.pressure()ThermodynamicQuantity.system_size()ThermodynamicQuantity.temperature()ThermodynamicQuantity.tracer_diffusion_coefficient()ThermodynamicQuantity.u_fraction_of_a_component()ThermodynamicQuantity.user_defined_function()ThermodynamicQuantity.volume_fraction_of_a_phase()
- Module “utils”
- Module “propertymodel_sdk”
CCTResultCCTResultValuesCalculationContextCalculationContext.get_argument_ids()CalculationContext.get_dependent_component()CalculationContext.get_mass_fractions()CalculationContext.get_mass_percents()CalculationContext.get_mole_fractions()CalculationContext.get_mole_percents()CalculationContext.get_temperature()CalculationContext.get_ui_boolean_value()CalculationContext.get_ui_condition_list()CalculationContext.get_ui_float_value()CalculationContext.get_ui_list_value()CalculationContext.get_ui_string_value()CalculationContext.get_ui_temperature_value()CalculationContext.set_result_cct_values()CalculationContext.set_result_quantity_value()CalculationContext.set_single_equilibrium_result()
ConditionListEntryPropertyModelPropertyModel.add_button_callback()PropertyModel.after_evaluations()PropertyModel.before_evaluations()PropertyModel.evaluate_model()PropertyModel.get_license_key()PropertyModel.provide_calculation_result_quantities()PropertyModel.provide_model_category()PropertyModel.provide_model_description()PropertyModel.provide_model_name()PropertyModel.provide_model_parameters()PropertyModel.provide_ui_panel_components()PropertyModel.remove_button_callback()PropertyModel.set_model_parameter()
ResultQuantityResultQuantityTypeResultQuantityType.CCT_QUANTITYResultQuantityType.ENERGY_QUANTITYResultQuantityType.GENERAL_QUANTITYResultQuantityType.LENGTH_QUANTITYResultQuantityType.SINGLE_EQUILIBRIUM_QUANTITYResultQuantityType.STRENGTH_QUANTITYResultQuantityType.SURFACE_ENERGY_QUANTITYResultQuantityType.TEMPERATURE_QUANTITYResultQuantityType.TIME_QUANTITY
SpecialListMarkersUIBooleanComponentUIComponentUIConditionListComponentUIFloatComponentUIGeneralListComponentUIGeneralListComponent.connect_component_visibility()UIGeneralListComponent.enable_add_button()UIGeneralListComponent.enable_remove_button()UIGeneralListComponent.get_content()UIGeneralListComponent.get_dependent_components()UIGeneralListComponent.get_selected_entry()UIGeneralListComponent.remove_component_visibility()UIGeneralListComponent.set_index()
UIPhaseListComponentUIStringComponentUITemperatureComponentcreate_boolean_ui_component()create_condition_list_ui_component()create_energy_quantity()create_float_ui_component()create_general_quantity()create_length_quantity()create_list_ui_component()create_phase_list_ui_component()create_strength_quantity()create_string_ui_component()create_surface_energy_quantity()create_temperature_quantity()create_temperature_ui_component()create_time_quantity()
- Module “exceptions”
APIServerExceptionCalculationExceptionComponentNotExistingExceptionDatabaseExceptionDegreesOfFreedomNotZeroExceptionEquilibriumExceptionGeneralCalculationExceptionGeneralExceptionInvalidCalculationConfigurationExceptionInvalidCalculationStateExceptionInvalidNumberOfResultGroupsExceptionInvalidResultConfigurationExceptionInvalidResultStateExceptionLicenseExceptionNoDataForPhaseExceptionNotAllowedOperationExceptionPhaseNotExistingExceptionResultExceptionSyntaxExceptionTCExceptionUnrecoverableCalculationExceptionhandle_exception()
- Module “abstract_base”
AbstractCalculationAbstractResultPhaseParameterPhaseParameter.get_intervals()PhaseParameter.get_lower_temperature_limit()PhaseParameter.get_name()PhaseParameter.remove_all_intervals()PhaseParameter.remove_interval_with_upper_limit()PhaseParameter.set_expression_with_upper_limit()PhaseParameter.set_interval()PhaseParameter.set_lower_temperature_limit()
SystemDataSystemFunctionSystemFunction.get_intervals()SystemFunction.get_lower_temperature_limit()SystemFunction.get_name()SystemFunction.remove_all_intervals()SystemFunction.remove_interval_with_upper_limit()SystemFunction.set_expression_with_upper_limit()SystemFunction.set_interval()SystemFunction.set_lower_temperature_limit()
SystemModificationsTemperatureInterval
- Calculations
- Troubleshooting