Define materials ================== PyFluent supports using :ref:`ref_solver_tui_commands` and :ref:`ref_settings` to define materials. Use solver TUI commands ----------------------- This example shows a comparison between the TUI command and the Python code for defining the fluid material being modelled on a cell zone. **TUI command** .. code:: scheme /define/materials elbow-fluid yes water-liquid no no no no 0 no 0 no 0 no 0 no 0 no 1 no no no no no **Python code** .. code:: python import ansys.fluent.core as pyfluent solver = pyfluent.launch_fluent(precision="double", processor_count=2, mode="solver") solver.tui.file.read_case("file.cas.h5") solver.tui.define.materials.copy("fluid", "water-liquid") solver.tui.define.boundary_conditions.fluid( "elbow-fluid", "yes", "water-liquid", "no", "no", "no", "no", "0", "no", "0", "no", "0", "no", "0", "no", "0", "no", "1", "no", "no", "no", "no", "no", ) Use settings objects -------------------- This example shows how you use :ref:`ref_settings` to define materials. Copy material from database ~~~~~~~~~~~~~~~~~~~~~~~~~~~ **Python code** .. code:: python solver.setup.materials.copy_database_material_by_name(type="fluid", name="water-liquid") solver.setup.cell_zone_conditions.fluid["elbow-fluid"].material = "water-liquid" Create new material ~~~~~~~~~~~~~~~~~~~ **Python code** .. code:: python mysolid = solver.setup.materials.solid.create("mysolid") mysolid.chemical_formula = "SiO2" mysolid.density.value = 2650 mysolid.specific_heat.value = 1887 mysolid.thermal_conductivity.value = 7.6 .. code:: python myfluid = solver.setup.materials.fluid.create("myfluid") myfluid.chemical_formula = "H2O" myfluid.density.value = 1000 myfluid.specific_heat.value = 4186 myfluid.thermal_conductivity.value = 0.6 myfluid.viscosity.value = 1.03e-3