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Soil-Foundation-Structure Interaction with Mobilization of Bearing Capacity: Experimental Study on Sand
Recent studies have highlighted the beneficial role of foundation uplifting and the potential effectiveness of guiding the plastic hinge into the foundation soil by allowing full mobilization of bearing capacity during strong seismic shaking. With the inertia loading transmitted onto the superstructure being limited by the capacity of the foundation, this concept may provide an alternative method of in-ground seismic isolation: the so-called rocking isolation. Attempting to unravel the effectiveness of this alternative design method, this paper experimentally investigates the nonlinear response of a surface foundation on sand and its effect on the seismic performance of an idealized slender single-degree-of-freedom structure. Using a bridge pier as an illustrative prototype, three foundation design alternatives are considered, representing three levels of design conservatism. Their performance is investigated through static (monotonic and slow-cyclic pushover) loading, and reduced-scale shaking table testing. Rocking isolation may provide a valid alternative for the seismic protection of structures, providing encouraging evidence in favor of the innovative idea of moving foundation design toward a less conservative, even unconventional, treatment.
Soil-Foundation-Structure Interaction with Mobilization of Bearing Capacity: Experimental Study on Sand
Recent studies have highlighted the beneficial role of foundation uplifting and the potential effectiveness of guiding the plastic hinge into the foundation soil by allowing full mobilization of bearing capacity during strong seismic shaking. With the inertia loading transmitted onto the superstructure being limited by the capacity of the foundation, this concept may provide an alternative method of in-ground seismic isolation: the so-called rocking isolation. Attempting to unravel the effectiveness of this alternative design method, this paper experimentally investigates the nonlinear response of a surface foundation on sand and its effect on the seismic performance of an idealized slender single-degree-of-freedom structure. Using a bridge pier as an illustrative prototype, three foundation design alternatives are considered, representing three levels of design conservatism. Their performance is investigated through static (monotonic and slow-cyclic pushover) loading, and reduced-scale shaking table testing. Rocking isolation may provide a valid alternative for the seismic protection of structures, providing encouraging evidence in favor of the innovative idea of moving foundation design toward a less conservative, even unconventional, treatment.
Soil-Foundation-Structure Interaction with Mobilization of Bearing Capacity: Experimental Study on Sand
Drosos, V. (author) / Georgarakos, T. (author) / Loli, M. (author) / Anastasopoulos, I. (author) / Zarzouras, O. (author) / Gazetas, G. (author)
Journal of Geotechnical and Geoenvironmental Engineering ; 138 ; 1369-1386
2012-02-07
182012-01-01 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2012
Experimental study of bearing capacity of a strip foundation on geogrid-reinforced sand
| Tema Archive | 2000
Bearing capacity of foundation soil
| Engineering Index Backfile | 1955
Bearing capacity of foundation soil
| Engineering Index Backfile | 1962
Bearing Capacity of Foundation on Geogrid-Reinforced Sand
| British Library Conference Proceedings | 1994