Cyclic resistance curves, derived through undrained element tests, are central to the study of liquefaction. Their use implies that water drainage is negligible during an earthquake. Nevertheless, a growing body of evidence suggests that this hypothesis is not realistic. In proximity to the interface of a liquefiable layer with an overlying lower permeability layer, upwards water flow can lead to localised, co-seismic pore volume increase. The aim of this paper is to quantify the effects of pore volume increase on cyclic resistance curves. Cyclic triaxial experiments are presented, performed under undrained conditions and under conditions of volumetric expansion. A constant inflow rate is chosen for the sake of simplicity. Results show that even small inflow rates have a detrimental effect on cyclic resistance. A simplified methodology is developed, which can estimate cyclic resistance under constant water inflow rates, by assuming a superposition of isotropic unloading and undrained cyclic shearing. The results presented add to increasing evidence on how current liquefaction susceptibility assessments might not be conservative for layered deposits. In addition, they highlight significant aspects of soil response under partially drained conditions.
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September 2024
Research Article|
October 04 2022
Cyclic liquefaction resistance of sand under a constant inflow rate
Orestis Adamidis
;
Orestis Adamidis
*Department of Engineering Science, University of Oxford, Oxford, UK.
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Ioannis Anastasopoulos
Ioannis Anastasopoulos
†Institute for Geotechnical Engineering (IGT), ETH Zurich, Zurich, Switzerland.
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Publisher: Emerald Publishing
Received:
April 29 2021
Accepted:
July 26 2022
Online ISSN: 1751-7656
Print ISSN: 0016-8505
© 2022 Emerald Publishing Limited
2022
Geotechnique (2024) 74 (10): 1019–1032.
Article history
Received:
April 29 2021
Accepted:
July 26 2022
Citation
Adamidis O, Anastasopoulos I (2024), "Cyclic liquefaction resistance of sand under a constant inflow rate". Geotechnique, Vol. 74 No. 10 pp. 1019–1032, doi: https://doi.org/10.1680/jgeot.21.00082
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