Selected topics in poromechanics

Fluid infiltrated porous materials are ubiquitous in science and engineering (concrete, rocks, bones etc.). This doctoral course aims at providing 1) a fundamental basis on the mechanics of such fluid-infiltrated materials, and 2) mathematical (notably scaling and dimensional analysis) and numerical tools for the solution of the resulting multi-physics / possibly highly-nonlinear IBVP.

 

In particular, over the first block of the course, following parts of O. Coussy "Poromechanics" & A. H. D. Cheng "Poro-elasticity", we will cover:
Kinematics, conservation laws, fluid & porous solid constitutive relations, poroelasticity (fundamental solutions, early/late time solutions, numerical solutions), poro-elastoplasticity (with applications to rocks).   

 

In the second block of the class, the focus will be on the growth of localized discontinuities (in the form of fractures & faults) driven by hydro-mechanical loading. It will cover i) introduction to boundary integral equations for quasi-static elasticity, ii) flow in fractures, iii) hydraulic fracture propagation, iv) fluid-driven frictional ruptures.

 

The examination will consist in a final oral exam.