The paper examines the problem of the soil-structure interaction for buildings founded on piles throughout the comparative 6 analyses between the seismic demand in compliant base and fixed base models. The aim of the work is to introduce a simple approach 7 for evaluating the effects of soil-foundationstructure interaction (SFSI) for buildings founded on piles and, hence, to quantify the relevance 8 of SFSI effects for this kind of structure. Inertial interaction analyses are carried out by idealizing the complete system as a linear SDOF on a 9 deformable base represented by frequency dependent springs and dashpots. An application of the proposed methodology to a case study of a 10 nine-story building resting on two well-studied subsoils, a deep clay layer from Piana del Fucino (Italy) and a pyroclastic deposit from Napoli, 11 is presented and discussed. Reference is made to a complete seismic risk analysis in which the input signals are grouped into strips according 12 to the conditional spectrum method. As a further objective, the effect of wall infills on the seismic demand in the reference buildings is 13 investigated. The results show that for pyroclastic deposit the seismic demand in the compliant model is comparable with that for the fixed 14 base. By contrast, SFSI leads to a relevant reduction of the seismic demand for buildings on the clay profile. It is concluded that, contrary to 15 the common belief, SFSI may also be relevant for tall buildings if they rest on soft soils

Relevance of Dynamic Soil-Foundation-Structure Interaction Effects for Pile Supported Buildings

de Sanctis, Luca
Conceptualization
;
Di Laora, Raffaele
Data Curation
;
Iovino, Maria
Formal Analysis
;
Aversa Stefano
Writing – Review & Editing
2020-01-01

Abstract

The paper examines the problem of the soil-structure interaction for buildings founded on piles throughout the comparative 6 analyses between the seismic demand in compliant base and fixed base models. The aim of the work is to introduce a simple approach 7 for evaluating the effects of soil-foundationstructure interaction (SFSI) for buildings founded on piles and, hence, to quantify the relevance 8 of SFSI effects for this kind of structure. Inertial interaction analyses are carried out by idealizing the complete system as a linear SDOF on a 9 deformable base represented by frequency dependent springs and dashpots. An application of the proposed methodology to a case study of a 10 nine-story building resting on two well-studied subsoils, a deep clay layer from Piana del Fucino (Italy) and a pyroclastic deposit from Napoli, 11 is presented and discussed. Reference is made to a complete seismic risk analysis in which the input signals are grouped into strips according 12 to the conditional spectrum method. As a further objective, the effect of wall infills on the seismic demand in the reference buildings is 13 investigated. The results show that for pyroclastic deposit the seismic demand in the compliant model is comparable with that for the fixed 14 base. By contrast, SFSI leads to a relevant reduction of the seismic demand for buildings on the clay profile. It is concluded that, contrary to 15 the common belief, SFSI may also be relevant for tall buildings if they rest on soft soils
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11367/82242
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