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Applicability of the generalized scaling law to a pile-inclined ground system subject to liquefaction-induced lateral spreading.

Authors :
Ueda, Kyohei
Sawada, Kaito
Wada, Toma
Tobita, Tetsuo
Iai, Susumu
Source :
Soils & Foundations; Oct2019, Vol. 59 Issue 5, p1260-1279, 20p
Publication Year :
2019

Abstract

The generalized scaling law is based on the concept of two-stage scaling and allows currently available centrifuge facilities to model a large-scale prototype expanding over the spatial dimension ranging from 30 m or larger subject to earthquake motions. This paper presents the results of investigation on the applicability of the generalized scaling law to the fully nonlinear regime of soil-structure system with the induced strain level of 10% in the order of magnitude. The centrifuge model tests performed in this study under the modeling of models scheme consist of a pile model embedded in a inclined ground subject to liquefaction-induced lateral spreading. Four different centrifugal accelerations ranging from 13 g to 50 g are used whereas the actual size of the physical model is kept constant with an overall scaling factor of 1/100. The models are exposed to tapered sinusoidal input accelerations of frequency 0.59 Hz and amplitude 3.0 m/s<superscript>2</superscript> in prototype scale, and the results are compared in terms of prototype by applying the generalized scaling law. As for the response of the ground during shaking, essentially identical accelerations and excess pore water pressures are recorded for all cases, while the lateral displacement shows a variation ranging from 5% to 9% in terms of shear strain due to a slight variation in experimental conditions (e.g., input peak acceleration, achieved density distribution). Practically the same responses are measured among the cases in the dissipation phase of excess pore water pressure. With regard to pile behavior, nearly identical responses for the lateral displacements and bending moments are obtained for all cases both during and after shaking. These results demonstrated that the generalized scaling law is applicable to the fully nonlinear regime of soil-structure system subject to the cumulative shear strain in the order of 10% due to cyclic mobility of sands during earthquakes. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00380806
Volume :
59
Issue :
5
Database :
Complementary Index
Journal :
Soils & Foundations
Publication Type :
Academic Journal
Accession number :
141777952
Full Text :
https://doi.org/10.1016/j.sandf.2019.05.005