Long-term dynamic bearing capacity of shallow foundations on a contractive cohesive soil

Autor: Daniel R. Panique Lazcano, Hernán Patiño Nieto, Rubén Ángel Galindo Aires
Rok vydání: 2021
Předmět:
Zdroj: Acta Geotechnica. 17:1897-1915
ISSN: 1861-1133
1861-1125
DOI: 10.1007/s11440-021-01317-3
Popis: The calculation of the long-term dynamic bearing capacity arises from the need to consider the generation of maximum pore-water pressure developed from a cyclic load. Under suitable conditions, a long-term equilibrium situation would be reached, when pore-water pressures stabilized. However, excess pore-water pressure generation can lead to cyclic softening. Consequently, it is necessary to define both the cohesion and the internal friction angle to calculate the dynamic bearing capacity of a foundation in the long term, being necessary to incorporate the influence of the self-weight of soil and therefore the width of the foundation. The present work is based on an analysis of the results of cyclic simple shear tests on soil samples from the port of El Prat in Barcelona. From these experimental data, a pore-water pressure generation formulation was obtained that was implemented in FLAC2D finite difference software. A methodology was developed for the calculation of the maximum cyclic load that a footing can resist before the occurrence of the cyclic softening. The type of soil studied is a contractive cohesive soil, which generates positive pore-water pressures. As a numerical result, design charts have been developed for long-term dynamic bearing capacity calculation and the charts were validated with the application of a real case study.
Databáze: OpenAIRE