MX-80 bentonite has been considered as a suitable material for the construction of engineered barriers employed in deep geological radioactive waste repositories. These barriers are generally formed of compacted unsaturated bentonite, the latter experiencing a slow saturation due to its low permeability whileinteracting with the surrounding groundwater. In order to verify the long-term safety requirements of engineered barriers, their response to hydration has to be carefully assessed. As part of the recent European project BEACON (Bentonite Mechanical Evolution), the behaviour of MX-80 bentonite subjected to different hydration paths was investigated in a number of laboratory and field experiments and numerical studies. This paper is concerned with numerical simulations of two laboratory experiments performed during the project, with the objective of examining the predictive capabilities of the proposed numerical modelling approach. The experiments were selected due to the granular state of bentonite at its placement in the testingapparatus, which differed from the large number of previous experiments conducted on specimens of compacted bentonite blocks. The paper provides a brief introduction to the adopted modelling framework, a summary of calibrated parameters for the hydro-mechanical constitutive modelling and the results of numerical simulations, concluding that a satisfactory numerical simulation of the experiments was achieved.

Numerical Modelling of Unsaturated MX-80 Bentonite Subjected to Two Different Hydration Paths and Subsequent Loading to High-Pressures / Pedone, G.; Zdravkovi, L.; Potts, D.; Tsiampousi, A.. - In: E3S WEB OF CONFERENCES. - ISSN 2267-1242. - ELETTRONICO. - 382:(2023), p. 14009. (Intervento presentato al convegno 8th International Conference on Unsaturated Soils (UNSAT 2023) tenutosi a Milos, Greece nel 2nd May-5th May 2023) [10.1051/e3sconf/202338214009].

Numerical Modelling of Unsaturated MX-80 Bentonite Subjected to Two Different Hydration Paths and Subsequent Loading to High-Pressures

Pedone G.
Primo
;
2023-01-01

Abstract

MX-80 bentonite has been considered as a suitable material for the construction of engineered barriers employed in deep geological radioactive waste repositories. These barriers are generally formed of compacted unsaturated bentonite, the latter experiencing a slow saturation due to its low permeability whileinteracting with the surrounding groundwater. In order to verify the long-term safety requirements of engineered barriers, their response to hydration has to be carefully assessed. As part of the recent European project BEACON (Bentonite Mechanical Evolution), the behaviour of MX-80 bentonite subjected to different hydration paths was investigated in a number of laboratory and field experiments and numerical studies. This paper is concerned with numerical simulations of two laboratory experiments performed during the project, with the objective of examining the predictive capabilities of the proposed numerical modelling approach. The experiments were selected due to the granular state of bentonite at its placement in the testingapparatus, which differed from the large number of previous experiments conducted on specimens of compacted bentonite blocks. The paper provides a brief introduction to the adopted modelling framework, a summary of calibrated parameters for the hydro-mechanical constitutive modelling and the results of numerical simulations, concluding that a satisfactory numerical simulation of the experiments was achieved.
2023
8th International Conference on Unsaturated Soils (UNSAT 2023)
Milos, Greece
E3S Web of Conferences
Pedone, G.; Zdravkovi, L.; Potts, D.; Tsiampousi, A.
Numerical Modelling of Unsaturated MX-80 Bentonite Subjected to Two Different Hydration Paths and Subsequent Loading to High-Pressures / Pedone, G.; Zdravkovi, L.; Potts, D.; Tsiampousi, A.. - In: E3S WEB OF CONFERENCES. - ISSN 2267-1242. - ELETTRONICO. - 382:(2023), p. 14009. (Intervento presentato al convegno 8th International Conference on Unsaturated Soils (UNSAT 2023) tenutosi a Milos, Greece nel 2nd May-5th May 2023) [10.1051/e3sconf/202338214009].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/379088
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