Influence of the microstructural properties of biocemented sand on its mechanical behavior |
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Authors: | Abdelali Dadda Christian Geindreau Fabrice Emeriault Annette Esnault Filet Aurélie Garandet |
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Affiliation: | 1. CNRS, GINP, Laboratoire Sols, Solides, Structures et Risques (3SR), Université Grenoble Alpes, Grenoble, France;2. Soletanche Bachy, Rueil Malmaison, France;3. Compagnie Nationale du Rhône, Lyon, France |
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Abstract: | The mechanical efficiency of the biocementation process is directly related to the microstructural properties of the biocemented sand, such as the volume fraction of calcite, its distribution within the pore space, coordination number, contact surface area, and types of contact. In the present work, some of these microscopic properties are computed, from 3D images obtained by X-ray tomography of biocemented sand. These properties are then used as an input in current analytical models to estimate the elastic properties (Young and shear moduli) and the strength properties (Coulomb cohesion). For the elastic properties, the analytical estimates (contact cement theory model) are compared with classical bounds, self-consistent estimate and numerical results obtained by direct computation (FEM computation) on the same 3D images. Concerning the cohesion, an analytical model initially developed to estimate the cohesion due to suction in unsaturated soils is modified to evaluate the macroscopic cohesion of biocemented sands. Such analytical model is calibrated on experimental data obtained from triaxial tests performed on the same biocemented sand. In overall, the presented results point out the important role of some microstructural parameters, notably those related to the contact, on such effective parameters. |
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Keywords: | mechanical properties sand biocementation X-ray microtomography |
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