JRMGE / Vol 13 / Issue 5

Article

Consolidation of soft clay foundation improved by geosynthetic-reinforced granular columns: Numerical evaluation

Nima R. Alkhorshid, Gregório L.S. Araujo, Ennio M. Palmeira

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a Institute of Integrated Engineering, Federal University of Itajubá e Itabira Campus, Itabira, Minas Gerais, 35903-087, Brazil
b Department of Civil and Environmental Engineering, University of Brasília, Brasília, Distrito Federal, 70910-900, Brazil


2021, 13(5): 1173-1181. doi:10.1016/j.jrmge.2021.03.004


Received: 2020-11-29 / Revised: 2020-12-25 / Accepted: 2021-03-07 / Available online: 2021-04-20

2021, 13(5): 1173-1181.

doi:10.1016/j.jrmge.2021.03.004


Received: 2020-11-29

Revised: 2020-12-25

Accepted: 2021-03-07

Available online: 2021-04-20


Abstract:

Soft clays are problematic soils as they present high compressibility and low shear strength. There are several methods for improving in situ conditions of soft clays. Based on the geotechnical problem's geometry and characteristics, the in situ conditions may require reinforcement to restrain instability and construction settlements. Granular columns reinforced by geosynthetic material are widely used to reduce settlements of embankments on soft clays. They also accelerate the consolidation rate by reducing the drainage path's length and increasing the foundation soil's bearing capacity. In this study, the performance of encased and layered granular columns in soft clay is investigated and discussed. The numerical results show the significance of geosynthetic stiffness and the column length on the embankment settlements. Furthermore, the results show that granular columns may play an important role in dissipating the excess pore water pressures and accelerating the consolidation settlements of embankments on soft clays.

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Keywords: Geosynthetic, Embankment, Granular column, Consolidation, Soft soil

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Nima R. Alkhorshid, Gregório L.S. Araujo, Ennio M. Palmeira, 2021. Consolidation of soft clay foundation improved by geosynthetic-reinforced granular columns: Numerical evaluation. J. Rock Mech. Geotech. Eng. 13 (5), 1173-1181.

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Author(s) Information

Dr. Nima R. Alkhorshid
nimara@unifei.edu.br

Nima Rostami Alkhorshid obtained his BSc and MSc degrees in Civil Engineering from the Azad Shushtar University (Iran) in 2007 and Eastern Mediterranean University (Cyprus) in 2012, respectively, and his PhD in Geotechnical Engineering from the University of Brasília (Brazil) in 2017. He worked at Khuzestan Government Office (Iran) as the supervisor of the Earthworks and paving projects. He is currently a geotechnical engineering and engineering geology professor at the Federal University of Itajubá-Campus Itabira since 2017. His research interests include (1) Soil improvement, (2) Experimental and numerical studies in soil and rock mechanics, (3) Geosynthetics, (4) Slope stability, and (5) Foundations and excavations.