Material Collection: `benchmarks`

Material List: Single-material Benchmarks

Viscoelastic_Material
MaterialForSolidBodyRotation
Layer1RayleighTaylor
Layer2RayleighTaylor
IsoviscousFluidBlankenbach89
IsoviscousFluid1AroundElasticSlab
IsoviscousFluid2AroundElasticSlab
ViscoelasticSlabMaterial1
ViscoelasticSlabMaterial2
NonNewtonianMaterialChannelFlowBenchmark
ConstantViscosityChannel
ConstantViscosityChannelVariableThermalConductivity
TempDependentViscosityCouetteFlowBenchmark

Material List: Kaus10 Plasticity Benchmark

StickyAirKaus10
CrustKaus10
WeakSeedKaus10

Material List: Flexure with Triangular Hole Benchmark

FlexTestStickyWater
FlexTestIsoviscousCrust
FlexTestIsoviscousMantle

Material List: Visco-elastic Extension and Contraction Benchmarks

ViscoelasticExtensionStickyAir
ViscoelasticExtensionStickyWater
ViscoelasticExtensionSediment
ViscoelasticExtensionUpperCrust
ViscoelasticExtensionLowerCrust
ViscoelasticExtensionUpperCrustStrong
ViscoelasticExtensionLowerCrustStrong
ViscoelasticExtensionMantle

Material List: Simple Sedimentation Benchmark

SimpleSedStickyAir
SimpleSedStickyWater
SimpleSedSedimentWetQuartziteGT95
SimpleSedPeridotiteDryKK08
SimpleSedSalt

Material Summary

Collection File Path

src/material_library/registries/benchmarks/benchmarks.yml

Material Tables

Material Tables: `Viscoelastic_Stress_Buildup`

Viscoelastic_Material

Property Name	Value	Units	Description
`standard_density`	`4000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`2.5e-5`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e21`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e10`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `Solid_Body_Rotation_Benchmark`

MaterialForSolidBodyRotation

Property Name	Value	Units	Description
`standard_density`	`3000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e19`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.0e-6`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `Rayleigh_Taylor_Instability_Benchmark`

Layer1RayleighTaylor

Property Name	Value	Units	Description
`standard_density`	`3000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e13`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.0e-6`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Layer2RayleighTaylor

Property Name	Value	Units	Description
`standard_density`	`2900.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e19`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.0e-6`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `Box_Convection_Benchmark`

IsoviscousFluidBlankenbach89

Property Name	Value	Units	Description
`standard_density`	`4000.0`	`kg/m^3`	`Density at standard conditions`
`thermal_expansion`	`2.5e-5`	`1/K`	`Thermal expansion`
`flow_stype`	`TemperatureDependentConvectionBenchmark`	`None`	`Flow law option`
`viscosity_ref_blankenbach89`	`1.0e23`	`Pa.s`	`Reference viscosity of flow law from Blankenbach (1989).`
`b_term_blankenbach89`	`0.0`	`None`	`b term of flow law from Blankenbach (1989).`
`c_term_blankenbach89`	`0.0`	`None`	`c term of flow law from Blankenbach (1989).`
`shear_modulus`	`1.0e28`	`Pa`	`Shear modulus.`
`heat_capacity`	`1250.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`5.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `Elastic_Slab_Benchmark`

IsoviscousFluid1AroundElasticSlab

Property Name	Value	Units	Description
`standard_density`	`1.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e21`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

IsoviscousFluid2AroundElasticSlab

Property Name	Value	Units	Description
`standard_density`	`1.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e21`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticSlabMaterial1

Property Name	Value	Units	Description
`standard_density`	`4000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e27`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e10`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticSlabMaterial2

Property Name	Value	Units	Description
`standard_density`	`4000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`0.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e27`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e10`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `Plasticity_Benchmark_Kaus10`

StickyAirKaus10

Property Name	Value	Units	Description
`standard_density`	`1.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e19`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e21`	`Pa`	`Shear modulus.`
`heat_capacity`	`100.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`20.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

CrustKaus10

Property Name	Value	Units	Description
`standard_density`	`2700.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`3.0e-5`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`2400.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e25`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`5.0e10`	`Pa`	`Shear modulus.`
`cohesion_initial`	`4.0e7`	`Pa`	`Cohesion at initial strain.`
`cohesion_final`	`5.0e6`	`Pa`	`Cohesion at final strain.`
`friction_angle_initial`	`30.0`	`Degrees`	`Friction angle at initial strain.`
`friction_angle_final`	`30.0`	`Degrees`	`Friction angle at final strain.`
`strain_initial`	`0.0`	`None`	`Initial strain used for cohesion and friction angle.`
`strain_final`	`0.1`	`None`	`Final strain used for cohesion and friction angle.`
`heat_capacity`	`1200.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

WeakSeedKaus10

Property Name	Value	Units	Description
`standard_density`	`2700.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`3.0e-5`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`2400.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e20`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`5.0e10`	`Pa`	`Shear modulus.`
`heat_capacity`	`1200.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `NonNewtonian_Channel_Flow_Benchmark`

NonNewtonianMaterialChannelFlowBenchmark

Property Name	Value	Units	Description
`standard_density`	`3200.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Composite`	`None`	`Flow law option`
`pre_exponential_dc`	`5.0e-20`	`1/s/MPa^n`	`Pre-exponential factor for dislocation creep.`
`stress_exponent_n_dc`	`3.0`	`None`	`Stress exponent for dislocation creep.`
`shear_modulus`	`1.0e21`	`Pa`	`Shear modulus.`
`heat_capacity`	`3000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`3.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Table: `Channel_Flow_Non_Steady_Temperature_Benchmark`

ConstantViscosityChannel

Property Name	Value	Units	Description
`standard_density`	`3000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e19`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `Channel_Flow_Variable_Conductivity`

ConstantViscosityChannelVariableThermalConductivity

Property Name	Value	Units	Description
`standard_density`	`3000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option name.`
`viscosity_iso`	`1.0e19`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`8.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`1.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `TempDependentViscosityCouetteFlowBenchmark`

TempDependentViscosityCouetteFlowBenchmark

Property Name	Value	Units	Description
`standard_density`	`3000.0`	`kg/m^3`	`Density at standard conditions.`
`flow_stype`	`TemperatureDependentCouetteBenchmark`	`None`	`Flow law option name.`
`pre_exponential_td`	`1.0e15`	`Pa.s`	`Pre-exponential factor for temperature-dependent viscosity.`
`activation_energy_td`	`150.0`	`kJ/mol`	`Activation energy for temperature-dependent viscosity.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

Material Tables: `FlexureTest_Triangular_Load`

FlexTestStickyWater

Property Name	Value	Units	Description
`standard_density`	`1000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`0.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e18`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`100.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`20.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

FlexTestIsoviscousCrust

Property Name	Value	Units	Description
`standard_density`	`2800.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e27`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.64`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`807.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.0e-6`	`W/m^3`	`Radiogenic heat production.`

FlexTestIsoviscousMantle

Property Name	Value	Units	Description
`standard_density`	`3300.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e21`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e10`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.73`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`1293.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.2e-8`	`W/m^3`	`Radiogenic heat production.`

Material Table: `Viscoelastic_Extension`

ViscoelasticExtensionStickyAir

Property Name	Value	Units	Description
`standard_density`	`1.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e18`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`100.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`200.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionStickyWater

Property Name	Value	Units	Description
`standard_density`	`1000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`0.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e18`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`100.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`200.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionSediment

Property Name	Value	Units	Description
`standard_density`	`2700.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`0.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e20`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.64`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`807.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.0e-6`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionUpperCrust

Property Name	Value	Units	Description
`standard_density`	`2800.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e20`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.64`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`807.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.0e-6`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionLowerCrust

Property Name	Value	Units	Description
`standard_density`	`2800.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e20`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.64`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`807.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.0e-6`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionUpperCrustStrong

Property Name	Value	Units	Description
`standard_density`	`2800.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e26`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.64`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`807.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.0e-6`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionLowerCrustStrong

Property Name	Value	Units	Description
`standard_density`	`2800.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e26`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.64`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`807.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.0e-6`	`W/m^3`	`Radiogenic heat production.`

ViscoelasticExtensionMantle

Property Name	Value	Units	Description
`standard_density`	`3300.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e20`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`heat_capacity`	`1000.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`0.73`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`1293.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`2.2e-8`	`W/m^3`	`Radiogenic heat production.`

Material Table: `Simple_Sedimentation`

SimpleSedStickyAir

Property Name	Value	Units	Description
`standard_density`	`1.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0`	`1/Pa`	`Compressibility.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e18`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`100.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`200.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

SimpleSedStickyWater

Property Name	Value	Units	Description
`standard_density`	`1000.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`0.0`	`1/K`	`Thermal expansion.`
`compressibility`	`0.0`	`1/Pa`	`Compressibility.`
`melt_density`	`0.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Isoviscous`	`None`	`Flow law option.`
`viscosity_iso`	`1.0e18`	`Pa.s`	`Viscosity for isoviscous models.`
`shear_modulus`	`1.0e20`	`Pa`	`Shear modulus.`
`heat_capacity`	`100.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`200.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`thermal_conductivity_a`	`0.0`	`W/m`	`Reference thermal conductivity parameter a.`
`radiogenic_heat_production`	`0.0`	`W/m^3`	`Radiogenic heat production.`

SimpleSedSedimentWetQuartziteGT95

Property Name	Value	Units	Description
`standard_density`	`2710.0`	`kg/m^3`	`Density at standard conditions: Shale50%:Sandstone50%, typical rocks from H&K10.`
`thermal_expansion`	`3.0e-5`	`1/K`	`Thermal expansion.`
`compressibility`	`1.0e-11`	`1/Pa`	`Compressibility.`
`melt_density`	`2400.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Composite`	`None`	`Flow law option.`
`pre_exponential_dc`	`0.00011`	`1/s/MPa^n`	`Pre-exponential factor for dislocation creep: Wet Quartzite, (Gleason and Tullis, 1995).`
`stress_exponent_n_dc`	`4.0`	`None`	`Stress exponent for dislocation creep: Wet Quartzite, (Gleason and Tullis, 1995).`
`activation_energy_dc`	`223.0`	`kJ/mol`	`Activation energy for dislocation creep: Wet Quartzite, (Gleason and Tullis, 1995).`
`activation_volume_dc`	`0.0`	`J/MPa/mol`	`Activation volume for dislocation creep.`
`shear_modulus`	`3.0e10`	`Pa`	`Shear modulus.`
`cohesion_initial`	`5.0e6`	`Pa`	`Cohesion at initial strain.`
`cohesion_final`	`5.0e6`	`Pa`	`Cohesion at final strain.`
`friction_angle_initial`	`30.0`	`Degrees`	`Friction angle at initial strain.`
`friction_angle_final`	`3.0`	`Degrees`	`Friction angle at final strain.`
`strain_initial`	`0.0`	`None`	`Initial strain used for cohesion and friction angle.`
`strain_final`	`1.0`	`None`	`Final strain used for cohesion and friction angle.`
`heat_capacity`	`1200.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.3`	`W/m/K`	`Reference matrix thermal conductivity @ 20C: Shale50%:Sandstone50%, typical rocks from H&K10.`
`radiogenic_heat_production`	`1.4e-6`	`W/m^3`	`Radiogenic heat production.`
`stype_solidus`	`SedimentGerya2010`	`None`	`Solidus model`
`stype_liquidus`	`SedimentGerya2010`	`None`	`Liquidus model`
`latent_heat`	`300000.0`	`J/kg`	`Latent heat.`
`porosity_initial`	`0.4`	`fraction`	`Initial porosity.`
`porosity_decay_depth`	`2500.0`	`m`	`Porosity decay depth used in exponential decay law.`

SimpleSedPeridotiteDryKK08

Property Name	Value	Units	Description
`standard_density`	`3300.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`3.0e-5`	`1/K`	`Thermal expansion.`
`compressibility`	`8.2e-12`	`1/Pa`	`Compressibility.`
`melt_density`	`2750.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Composite`	`None`	`Flow law option.`
`pre_exponential_dc`	`1.23e6`	`1/s/MPa^n`	`Pre-exponential factor for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`stress_exponent_n_dc`	`4.94`	`None`	`Stress exponent for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_energy_dc`	`610.0`	`kJ/mol`	`Activation energy for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_volume_dc`	`13.0`	`J/MPa/mol`	`Activation volume for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`pre_exponential_difc`	`2.14e-7`	`1/s/MPa^n`	`Pre-exponential factor for diffusion creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_energy_difc`	`261.0`	`kJ/mol`	`Activation energy for diffusion creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_volume_difc`	`6.0`	`J/MPa/mol`	`Activation volume for diffusion creep: Dry Olivine, (Korenaga and Karato, 2008)`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`cohesion_initial`	`2.0e7`	`Pa`	`Cohesion at initial strain.`
`cohesion_final`	`4.0e6`	`Pa`	`Cohesion at final strain.`
`friction_angle_initial`	`15.0`	`Degrees`	`Friction angle at initial strain.`
`friction_angle_final`	`2.0`	`Degrees`	`Friction angle at final strain.`
`strain_initial`	`0.0`	`None`	`Initial strain used for cohesion and friction angle.`
`strain_final`	`1.0`	`None`	`Final strain used for cohesion and friction angle.`
`heat_capacity`	`1200.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`4.0`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`stype_solidus`	`PeridotiteKatz2003`	`None`	`Solidus model`
`stype_liquidus`	`PeridotiteKatz2003`	`None`	`Liquidus model`
`latent_heat`	`400000.0`	`J/kg`	`Latent heat.`

SimpleSedSalt

Property Name	Value	Units	Description
`standard_density`	`2200.0`	`kg/m^3`	`Density at standard conditions.`
`thermal_expansion`	`3.0e-5`	`1/K`	`Thermal expansion.`
`compressibility`	`8.2e-12`	`1/Pa`	`Compressibility.`
`melt_density`	`2750.0`	`kg/m^3`	`Melt density.`
`flow_stype`	`Composite`	`None`	`Flow law option.`
`pre_exponential_dc`	`1230.0`	`1/s/MPa^n`	`Pre-exponential factor for dislocation creep: Dry Olivine x 1000, (Korenaga and Karato, 2008).`
`stress_exponent_n_dc`	`4.94`	`None`	`Stress exponent for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_energy_dc`	`610.0`	`kJ/mol`	`Activation energy for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_volume_dc`	`13.0`	`J/MPa/mol`	`Activation volume for dislocation creep: Dry Olivine, (Korenaga and Karato, 2008).`
`pre_exponential_difc`	`2.14e-7`	`1/s/MPa^n`	`Pre-exponential factor for diffusion creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_energy_difc`	`261.0`	`kJ/mol`	`Activation energy for diffusion creep: Dry Olivine, (Korenaga and Karato, 2008).`
`activation_volume_difc`	`6.0`	`J/MPa/mol`	`Activation volume for diffusion creep: Dry Olivine, (Korenaga and Karato, 2008)`
`shear_modulus`	`1.0e11`	`Pa`	`Shear modulus.`
`cohesion_initial`	`2.0e7`	`Pa`	`Cohesion at initial strain.`
`cohesion_final`	`4.0e6`	`Pa`	`Cohesion at final strain.`
`friction_angle_initial`	`10.0`	`Degrees`	`Friction angle at initial strain.`
`friction_angle_final`	`1.0`	`Degrees`	`Friction angle at final strain.`
`strain_initial`	`0.0`	`None`	`Initial strain used for cohesion and friction angle.`
`strain_final`	`1.0`	`None`	`Final strain used for cohesion and friction angle.`
`heat_capacity`	`1200.0`	`J/kg/K`	`Heat capacity.`
`thermal_conductivity_ref`	`2.6`	`W/m/K`	`Reference thermal conductivity parameter k0.`
`radiogenic_heat_production`	`1.0e-8`	`W/m^3`	`Radiogenic heat production.`
`porosity_initial`	`0.0`	`fraction`	`Initial porosity.`
`porosity_decay_depth`	`2500.0`	`m`	`Porosity decay depth used in exponential decay law.`