2009
DOI: 10.1007/s10518-009-9145-2
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Soil failure can be used for seismic protection of structures

Abstract: A new seismic design philosophy is illuminated, taking advantage of soil "failure" to protect the superstructure. Instead of over-designing the foundation to ensure that the loading stemming from the structural inertia can be "safely" transmitted onto the soil (as with conventional capacity design), and then reinforce the superstructure to avoid collapse, why not do exactly the opposite by intentionally under-designing the foundation to act as a "safety valve" ? The need for this "reversal" stems from the unce… Show more

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Cited by 206 publications
(116 citation statements)
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“…In this way, the soil experiences inelastic behavior and the footings are allowed to uplift under seismic excitation (e.g., Mergos and Kawashima, 2005;Gajan and Kutter, 2008;Anastasopoulos et al, 2010;Gelagoti et al, 2012;Antonellis et al, 2015). Depending on the safety factor (FSv) against static (vertical) loading, the mode of intentional foundation failure is either uplifting (for large FSv) or soil yielding (for small FSv) .…”
Section: Rocking Footings Conceptmentioning
confidence: 99%
“…In this way, the soil experiences inelastic behavior and the footings are allowed to uplift under seismic excitation (e.g., Mergos and Kawashima, 2005;Gajan and Kutter, 2008;Anastasopoulos et al, 2010;Gelagoti et al, 2012;Antonellis et al, 2015). Depending on the safety factor (FSv) against static (vertical) loading, the mode of intentional foundation failure is either uplifting (for large FSv) or soil yielding (for small FSv) .…”
Section: Rocking Footings Conceptmentioning
confidence: 99%
“…However, the amount of period elongation is dependent on the amplitude of rocking displacement [2,6]. In addition to this, soilstructure interaction effects for foundation rocking structures also contribute to reducing seismic demands [15].…”
Section: Literature Review: Evolution Of Rocking Applied To Bridgesmentioning
confidence: 99%
“…It has been found that the lifting off of one side of the footing not only results in geometric nonlinearity at the soil-footing interface, but causes yielding of soil on the other side, which in turn increases the uplift. Allowing mobilization of the foundation bearing capacity through soil yielding and foundation uplifting limits the maximum loads that can act on the superstructure, and also leads to a considerable amount of energy dissipation due to the hysteretic damping in the soil [6].…”
Section: Introductionmentioning
confidence: 99%