Abstract EN:

The soil displacements were studied by experimentation on models and numerical simulation. An analogical soil of Taylor-Schneebeli type was used in a 2-dimensional model. The experimentation was analysed with the help of numerical image technique which allowed us to identify the displacement field and the deformations in the soil mass and particularly around and above the tunnel as well as on the ground surface. The influence of various parameters is considered: variation in the diameter of the tunnel, depth of the tunnel, presence of the existing structures. The knowledge gained from the displacement field and the boundary condition is used to study the validity of the different constitutive laws describing the sail behaviour. The different parameters used in these laws are obtained by performing biaxial and oedometric tests on Schneebeli rods. The soil behaviour is taken into account by two laws: the first law is an adapted form of perfect elasto-plasticity (Mohr-Coulomb), the second one consists of a hyperbolic part of Duncan type to which is incorporated a criterion of plasticity (M-C). These models are used in plane strain and true 2D. The experimental results are compared to those obtained by modelisation especially concerning the displacement field in the soil mass and the settlement curve. This study helped us to show: • the limits of utilisation of a perfect elasto-plastic law with a single modulus (loading/unloading). • the importance of the dilatancy of the material. • the domain of validation of these simple models where a good agreement between calculation and experimentation was obtained.