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Darby, Kathleen M.; Boulanger, Ross W.; DeJong, Jason T.; Bronner, Jaclyn D. (, Journal of Geotechnical and Geoenvironmental Engineering)
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Moug, Diane M.; Price, Adam B.; Parra Bastidas, Ana Maria; Darby, Kathleen M.; Boulanger, Ross W.; DeJong, Jason T. (, Journal of Geotechnical and Geoenvironmental Engineering)
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Darby, Kathleen M.; Boulanger, Ross W.; DeJong, Jason T. (, Proc., Geotechnical Earthquake Engineering and Soil Dynamics V, Geotechnical Special Publication 290, S. J. Brandenberg and M. T. Manzari, eds., ASCE)Inverse analyses were used to evaluate the degree of partial drainage occurring during dynamic shaking of liquefying soil profiles in a set of centrifuge model tests. Three tests were performed using the 9-m radius centrifuge at the UC Davis Center for Geotechnical Modeling on saturated Ottawa sand models with initial relative densities of 25, 43, and 80%. Models were subjected to multiple sinusoidal shaking events with acceleration amplitudes ranging from 0.03 to 0.55g. Densely spaced pore pressure transducer arrays provided profiles of pore pressure generation and dissipation; inverse analyses of the pore pressure data were used to obtain volumetric strain profiles during shaking and dissipation. Surface settlements computed by integrating the volumetric strain profiles are compared to surface settlements measured from linear potentiometers. The magnitude of the volumetric strains due to partial drainage and their potential effects on liquefaction responses are discussed.more » « less
