# Rigid Define a Rigid material. ## Parameters
name : str
String naming the material.
color : Color
Material appearance. color= rgb(108,136,160)
drainage : str
Material drainage type. drainage = 'drained_undrained', 'always_drained', 'non_porous'
cavitation_cutoff : str
cavitation_cutoff = 'no' or 'yes'
pcav : float
Cavitation pressure in kPa
gamma_dry : float
Dry unit weight in kN/m^3
gamma_sat : float
Saturated unit weight in kN/m^3
tension_cutoff : str
Apply tension cutoff. tension_cutoff = 'yes' or 'no'
sigma_t : float
Tensile cutoff stress, in kPa.
K0 : float
Earth pressure coefficient at rest.
hydraulic_conductivity_option : str
hydraulic_conductivity_option = 'isotropic' or 'anisotropic'
K : float
Hydraulic conductivity, in m/day.
Kx : float
Hydraulic conductivity in x, in m/day.
Ky : float
Hydraulic conductivity in y, in m/day.
Kz : float
Hydraulic conductivity in z, in m/day.
hydraulic_model : str
hydraulic_model = 'basic' or 'van_genuchten'
e : float
Void ratio.
alpha : float
Model parameter related to the air entry pressure.
n : float
Model parameter related to the rate at which water is extracted from the soil once the air entry pressure has been exceeded.
Sr : float
Residual degree of saturation (may be slightly greater than 0).
Ss : float
Fraction of water filled pores at full saturation (may be slightly less than 1).
## Examples ```python i = 2 model2d.add_rectangle([i,0],[i+1,2]) Face = model2d.select(p0=[i+0.5,1],types='face') RigidMaterial = prj.Rigid(name='RigidMaterial', color= Color(r=108,g=136,b=160), drainage = 'drained_undrained', cavitation_cutoff = 'yes', pcav = 100, gamma_dry= 18, gamma_sat= 20, tension_cutoff= 'yes', sigma_t = 0, K0=0.001, hydraulic_conductivity_option= 'anisotropic', K=0.001, Kx=0.001, Ky=0.001, Kz=0.001, hydraulic_model='van_genuchten', e=1, alpha=2, n=2, Sr=0, Ss=1, ) model2d.set_solid(shapes=Face,material=RigidMaterial) ```