Giovanni Dente scite author profile

a b s t r a c tThe effect of soil inhomogeneity and material nonlinearity on kinematic soil-pile interaction and ensuing bending under the passage of vertically propagating seismic shear waves in layered soil, is investigated by means of 1-g shaking table tests and nonlinear numerical simulations. To this end, a suite of scale model tests on a group of five piles embedded in two-layers of sand in a laminar container at the shaking table facility in BLADE Laboratory at University of Bristol, are reported. Results from white noise and sine dwell tests were obtained and interpreted by means of one-dimensional lumped parameter models, suitable for inhomogeneous soil, encompassing material nonlinearity. A frequency range from 0.1 Hz to 100 Hz and 5 Hz to 35 Hz for white noise and sine dwell tests, respectively, and an input acceleration range from 0.015 g to 0.1 g, were employed. The paper elucidates that soil nonlinearity and inhomogeneity strongly affect both site response and kinematic pile bending, so that accurate nonlinear analyses are often necessary to predict the dynamic response of pile foundations.

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Analysis of pile groups under vertical harmonic vibration

Cairo

Conte

Dente

2005

Computers and Geotechnics

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Giovanni Dente

Stability analysis of slopes reinforced with piles

Seismic stability analysis of reinforced slopes

Interaction Factors for the Analysis of Pile Groups in Layered Soils

1-g Experimental investigation of bi-layer soil response and kinematic pile bending

Analysis of pile groups under vertical harmonic vibration

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