Ross W. Boulanger scite author profile

A probabilistic cone penetration test (CPT) based liquefaction triggering procedure for cohesionless soils is derived using a maximum likelihood method with an updated case history database. The liquefaction analysis framework includes revised relationships for the magnitude scaling factor (MSF) and for estimating fines contents from CPT data when laboratory test data are not available. The updated case history database and methodology for developing the liquefaction correlation are described. Measurement and estimation uncertainties, the potential effects of false positives and false negatives in the case history database, and the effects of the choice-based sampling bias in the case history database are accounted for. Sensitivity analyses showed that the position of the most likely triggering curve and the magnitude of the total error term are reasonably well constrained by the data. The sensitivity study provides reasonable bounds on the effects of different interpretations, from which probabilistic and deterministic relationships for practice are recommended.

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Seismic Soil-Pile-Structure Interaction Experiments and Analyses

Boulanger

Curras

Kutter

et al. 1999

J. Geotech. Geoenviron. Eng.

617

221

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Formulation of a sand plasticity plane-strain model for earthquake engineering applications

Boulanger

Ziotopoulou

2013

Soil Dynamics and Earthquake Engineering

173

157

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Liquefaction Susceptibility Criteria for Silts and Clays

Boulanger

Idriss

2006

J. Geotech. Geoenviron. Eng.

340

121

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Ross W. Boulanger

Semi-empirical procedures for evaluating liquefaction potential during earthquakes

CPT-Based Liquefaction Triggering Procedure

Seismic Soil-Pile-Structure Interaction Experiments and Analyses

Formulation of a sand plasticity plane-strain model for earthquake engineering applications

Liquefaction Susceptibility Criteria for Silts and Clays

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