Mechanisms of Seismically Induced Settlement of Buildings with Shallow Foundations on Liquefiable Soil
Autor: | Juan M. Pestana, Shideh Dashti, Jonathan D. Bray, Daniel W. Wilson, Michael F. Riemer |
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Rok vydání: | 2010 |
Předmět: | |
Zdroj: | Journal of Geotechnical and Geoenvironmental Engineering. 136:151-164 |
ISSN: | 1943-5606 1090-0241 |
Popis: | Seismically induced settlement of buildings with shallow foundations on liquefiable soils has resulted in significant damage in recent earthquakes. Engineers still largely estimate seismic building settlement using procedures developed to calculate postliquefaction reconsolidation settlement in the free-field. A series of centrifuge experiments involving buildings situated atop a layered soil deposit have been performed to identify the mechanisms involved in liquefaction-induced building settlement. Previous studies of this problem have identified important factors including shaking intensity, the liquefiable soil's relative density and thickness, and the building's weight and width. Centrifuge test results indicate that building settlement is not proportional to the thickness of the liquefiable layer and that most of this settlement occurs during earthquake strong shaking. Building-induced shear deformations combined with localized volumetric strains during partially drained cyclic loading are the dominant mechanisms. The development of high excess pore pressures, localized drainage in response to the high transient hydraulic gradients, and earthquake-induced ratcheting of the buildings into the softened soil are important effects that should be captured in design procedures that estimate liquefaction-induced building settlement. |
Databáze: | OpenAIRE |
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