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Numerical simulation of underground excavations in an indurated clay using non-local regularisation. Part 1: formulation and base case

Miguel A. Mánica, Antonio Gens, Jean Vaunat, Gilles Armand, Minh‐Ngoc Vu

2021Géotechnique66 citationsDOIOpen Access PDF

Abstract

The paper presents the numerical simulation of an underground excavation in the Callovo-Oxfordian argillaceous formation, performed in the Meuse/Haute-Marne underground research laboratory, within the context of deep geological nuclear waste disposal. The constitutive model adopted incorporates a number of characteristic features of the hydromechanical behaviour of the Callovo-Oxfordian claystone, and other indurated clays, including anisotropy and time-dependent deformations. Model parameters have been largely determined from available experimental results. Particular attention has been given to the incorporation of a non-local formulation in order to simulate localised deformations objectively. It is shown that the numerical analysis is able to provide a very satisfactory reproduction of the extent and configuration of the excavation-induced fractured zone, the development of rock displacements and the evolution of water pressures in the rock. The analysis is also able to provide a deeper insight into the mechanisms underlying the generation of water pressures inside the rock mass.

Topics & Concepts

ExcavationGeotechnical engineeringGeologyContext (archaeology)Rock mass classificationComputer simulationPore water pressureMining engineeringAnisotropyEngineeringPaleontologySimulationQuantum mechanicsPhysicsRock Mechanics and ModelingDam Engineering and SafetyNumerical methods in engineering
Numerical simulation of underground excavations in an indurated clay using non-local regularisation. Part 1: formulation and base case | Litcius