Soil Mechanics with ADINA
ADINA is used widely in many fields of applications, including the field of geomechanics. Currently, ADINA offers the following geotechnical material models: Drucker-Prager, Mohr-Coulomb, Cam-clay, and a curve description model. These models can be combined with the following ADINA features:
- two- and three-dimensional solid elements;
- birth and death of elements (useful for tunnel-type studies);
- initial stresses and strains;
- gravity loading;
- small and large deformations; and
- associated or non-associated flow rules.
To illustrate the use of ADINA in the field of geomechanics, we present the solutions of two common soil mechanics problems using the Mohr-Coulomb material model. The first problem is the classical strip footing problem on a soil foundation, in which a uniformly distributed pressure is applied to model the effect of the footing (see Fig. 1 below).
Figure 1. Schematic of first problem
Due to vertical symmetry, only half of the domain is
considered. The finite element mesh consists of
Figure 2. Results of first problem: load-displacement curves
The second problem considers a tunnel in which the initial support of the tunnel roof
is gradually removed (see Fig. 3 below). The objective is to establish
the displacement of the tunnel roof as the support is being removed. The support
is modeled as a radial pressure.
Figure 3. Schematic of second problem
The results obtained show that plastification
starts occurring between 50% and 55% of pressure removal and that the final plastic radius (i.e., when
there is no pressure in the tunnel) is 8.85 m (see Fig. 4 below). Finally, Fig. 5 shows
the evolution of the radial displacement of the tunnel as it is unloaded.
Figure 4. Results of second problem: band plot of Mohr-Coulomb flag
in Region A of Fig. 3
Figure 5. Results of second problem: evolution of tunnel's radial displacement
These examples illustrate only some of the powerful analysis capabilities of ADINA for solving geomechanics problems.