Define materials ================== PyFluent allows you to use :ref:`ref_settings` to interact with materials settings. Copy material from database ~~~~~~~~~~~~~~~~~~~~~~~~~~~ .. code:: python >>> import ansys.fluent.core as pyfluent >>> from ansys.fluent.core import examples >>> file_name = examples.download_file("mixing_elbow.cas.h5", "pyfluent/mixing_elbow") >>> solver = pyfluent.launch_fluent() >>> solver.settings.file.read_case(file_name=file_name) >>> materials = solver.settings.setup.materials >>> fluids = materials.fluid >>> fluids.make_a_copy(from_="air",to="air-2") >>> air_copy = fluids["air-2"] >>> from pprint import pprint >>> pprint(air_copy.get_state(), width=1) {'chemical_formula': '', 'density': {'option': 'constant', 'value': 1.225}, 'name': 'air-2', 'specific_heat': {'option': 'constant', 'value': 1006.43}, 'thermal_conductivity': {'option': 'constant', 'value': 0.0242}, 'viscosity': {'option': 'constant', 'value': 1.7894e-05}} >>> pprint(air_copy.viscosity.option.allowed_values(), width=1) ['constant', 'piecewise-linear', 'piecewise-polynomial', 'polynomial', 'expression', 'power-law', 'sutherland', 'kinetic-theory'] >>> air_copy.viscosity.value.set_state(1.81e-05) >>> solver.settings.setup.cell_zone_conditions.fluid["elbow-fluid"].material.set_state("air-2") Create new material ~~~~~~~~~~~~~~~~~~~ .. code:: python >>> mysolid = materials.solid.create("mysolid") >>> mysolid.chemical_formula.set_state("SiO2") >>> mysolid.density.value.set_state(2650) >>> mysolid.specific_heat.value.set_state(1887) >>> mysolid.thermal_conductivity.value.set_state(7.6) .. code:: python >>> myfluid = materials.fluid.create("myfluid") >>> myfluid.chemical_formula.set_state("H2O") >>> myfluid.density.value.set_state(1000) >>> myfluid.specific_heat.value.set_state(4186) >>> myfluid.thermal_conductivity.value.set_state(0.6) >>> myfluid.viscosity.value.set_state(1.03e-3)