from core.data import Data #ALL IN STANDARD SI UNITS # all values here come from the wet diabase in takeuchi, fialko wetdiabase = Data() wetdiabase.density = 2850.0 # kg/m^3 wetdiabase.specific_heat = 1000.0 # J/kgK wetdiabase.activation_energy = 2.6e5 # J/mol wetdiabase.stress_exponent = 3.4 wetdiabase.creep_constant = 2.2e-4 * 10**(-6 * 3.4) # (Pa^-n)/sec wetdiabase.thermal_diffusivity = 7.37e-7 # m^2/sec wetdiabase.youngs_modulus = 80.0e9 # Pa wetdiabase.poisson = 0.25 wetdiabase.shear_modulus = wetdiabase.youngs_modulus / ( 2 * (1 + wetdiabase.poisson)) wetdiabase.lame_lambda = (wetdiabase.youngs_modulus * wetdiabase.poisson) /\ ((1 + wetdiabase.poisson) * (1 - 2 * wetdiabase.poisson))
from core.data import Data #ALL IN STANDARD SI UNITS # all values here come from the wet diabase in takeuchi, fialko wetdiabase = Data() wetdiabase.density = 2850.0 # kg/m^3 wetdiabase.specific_heat = 1000.0 # J/kgK wetdiabase.activation_energy = 2.6e5 # J/mol wetdiabase.stress_exponent = 3.4 wetdiabase.creep_constant = 2.2e-4 * 10 ** (-6 * 3.4) # (Pa^-n)/sec wetdiabase.thermal_diffusivity = 7.37e-7 # m^2/sec wetdiabase.youngs_modulus = 80.0e9 # Pa wetdiabase.poisson = 0.25 wetdiabase.shear_modulus = wetdiabase.youngs_modulus / (2 * (1 + wetdiabase.poisson)) wetdiabase.lame_lambda = (wetdiabase.youngs_modulus * wetdiabase.poisson) /\ ((1 + wetdiabase.poisson) * (1 - 2 * wetdiabase.poisson))