Effect of negative excess pore-water pressure on the stability of excavated slopes

- Ghadrdan, Mohsen, Shaghaghi, Tahereh, Tolooiyan, Ali

Title
Effect of negative excess pore-water pressure on the stability of excavated slopes
Creator
Ghadrdan, Mohsen; Shaghaghi, Tahereh; Tolooiyan, Ali
Date
2020
Type
Text; Journal article
Identifier
http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/172007
Identifier
vital:14415
Identifier
https://doi.org/10.1680/jgele.19.00040
Identifier
ISBN:2049-825X
Abstract
Generation of negative excess pore-water pressure (NEPWP) due to the excavation of saturated soils under undrained conditions and the dissipation that follows over time may result in different short- and long-term slope instability. The NEPWP generated due to excavation gradually decreases towards equilibrium or, in some cases, steady seepage. Hence, total pore-water pressures immediately after excavation are lower than the ultimate equilibrium values, leading to a reduction of the average effective stresses in the slope and subsequently threatening stability in the long term. In this research study, the stability of three benchmark civil and mining excavations has been studied, considering the effects of the generation and dissipation of NEPWP. A series of numerical simulations are conducted to determine the role of in situ stresses and time in NEPWP dissipation as well as the consequent effects on the stability of the excavated slopes. To conduct a realistic time-dependent transient analysis, fully coupled hydro-geomechanical formulation has been employed. Results show that in general, higher removal of stress levels lead to higher NEPWP generation and higher factor of safety values in the short term. Thereafter, the dissipation of NEPWP threatens the long-term stability of the excavation.
Publisher
ICE Publishing
Relation
Geotechnique Letters Vol. 10, no. 1 (Mar 2020), p. 20-29
Rights
Copyright © ICE Publishing 2020, all rights reserved
Rights
This metadata is freely available under a CCO license
Rights
Open Access
Subject
0403 Geology; 0905 Civil Engineering; 0909 Geomatic Engineering; Excavation; Pore pressures; Time dependence; Delayed failure; Strength; Clays
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