AuxSubfieldsIsotropicPowerLaw#
- Full name:
pylith.materials.AuxSubfieldsIsotropicPowerLaw- Journal name:
auxfieldsisotropicpowerlaw
Auxiliary subfields associated with the isotropic power-law viscoelastic bulk rheology.
Pyre Facilities#
bulk_modulus: Bulk modulus subfield.current value: ‘subfield’, from {default}
configurable as: subfield, bulk_modulus
deviatoric_stress: Deviatoric stress subfield.current value: ‘subfield’, from {default}
configurable as: subfield, deviatoric_stress
power_law_exponent: Power-law exponent subfield.current value: ‘subfield’, from {default}
configurable as: subfield, power_law_exponent
power_law_reference_strain_rate: Power-law reference strain rate subfield.current value: ‘subfield’, from {default}
configurable as: subfield, power_law_reference_strain_rate
power_law_reference_stress: Power-law reference stress subfield.current value: ‘subfield’, from {default}
configurable as: subfield, power_law_reference_stress
reference_strain: Reference strain subfield.current value: ‘subfield’, from {default}
configurable as: subfield, reference_strain
reference_stress: Reference stress subfield.current value: ‘subfield’, from {default}
configurable as: subfield, reference_stress
shear_modulus: Shear modulus subfield.current value: ‘subfield’, from {default}
configurable as: subfield, shear_modulus
viscous_strain: Viscous strain subfield.current value: ‘subfield’, from {default}
configurable as: subfield, viscous_strain
Example#
Example of setting AuxSubfieldsIsotropicPowerLaw Pyre properties and facilities in a parameter file.
[pylithapp.problem.materials.mat_powerlaw.rheology.auxiliary_fields]
shear_modulus.basis_order = 1
bulk_modulus.basis_order = 1
power_law_reference_strain_rate = 1
power_law_reference_stress = 1
power_law_exponent.basis_order = 1
viscous_strain.basis_order = 1
deviatoric_stress.basis_order = 1
reference_stress.basis_order = 0
reference_strain.basis_order = 0