Observed heterogeneities after hydration of MX-80 bentonite under pellet/powder form: Fid-Bau Portal

Observed heterogeneities after hydration of MX-80 bentonite under pellet/powder form

Bernachy-Barbe, Fabien / Conil, Nathalie / Guillot, William / Talandier, Jean

Abstract Bentonite is considered for engineered barriers in radioactive waste geological repositories due to its low permeability, swelling pressure and radionuclide retention properties. The French concept favors the use of bentonite under granular form - pellets and crushed pellets mix - for an easier building of plugs and seals relatively to bricks. However, this introduces a significant degree of macroscopic initial heterogeneity (at several scales) that is expected to disappear via mass redistribution during resaturation in order to obtain homogeneous hydraulic and mechanical performance. This also may have practical effects on the reliability of results from tests with small volumes of bentonite compatible with the time scales manageable at the laboratory. In this study, isochoric swelling pressure tests at various densities and sample sizes were carried out and evidenced bias mainly due to the size of the cell compared to the size of the pellets, although the average density is equivalent, pointing towards incomplete homogenization. Large-scale swelling pressure tests, however, converged towards values previously measured for more finely grained materials. Local pressure measurements also evidenced some stress heterogeneities that do not seem to disappear at medium time-scales. These stress heterogeneities could be correlated to local density variations of the final state assessed using destructive measurements and X-ray computed tomography.

Highlights • A number of variable size swelling tests on granular MX80 bentonite are presented. • Stress and dry density heterogeneities of the final state are demonstrated. • First results of a metric-scale resaturation experiment are presented.