ANIDIS - L'ingegneria Sismica in Italia, ANIDIS XIX & ASSISi XVII - 2022

Dimensione del carattere:  Piccola  Media  Grande

BASE-ISOLATION OF A ROCKING OBJECT ON A ROCKING PEDESTAL: RESPONSE TO PULSE-TYPE GROUND MOTION

Giacomo Destro Bisol, Matthew DeJong, Domenico Liberatore, Luigi Sorrentino

Ultima modifica: 2022-08-08

Sommario


BASE-ISOLATION OF A ROCKING OBJECT ON A ROCKING PEDESTAL: RESPONSE TO PULSE-TYPE GROUND MOTION

G. Destro Bisol* (1), M.J. DeJong (2), D. Liberatore (3), L. Sorrentino (4)

(1) PhD Candidate, Department of Structural and Geotechnical Engineering - Sapienza University of Rome, giacomo.destrobisol@uniroma1.it

(2) Associate Professor, Department of Civil and Environmental Engineering - UC Berkeley, dejong@berkeley.edu

 (3) Full Professor, Department of Structural and Geotechnical Engineering - Sapienza University of Rome, domenico.liberatore@uniroma1.it

 (4) Associate Professor, Department of Structural and Geotechnical Engineering - Sapienza University of Rome, luigi.sorrentino@uniroma1.it

 

Abstract

The rocking response of rigid blocks, such as statues, storage systems, and slender structures in general, was documented both in the field and in the laboratory. These objects/structures must be protected from earthquakes, as their value may be inestimable in some cases. The use of base isolation devices for this structural typology was already studied and successfully applied to real cases.

Previous research has focused on the isolation of a single rigid block system, although there are circumstances, in which the use of a single block is insufficient to define the response. Configurations, in which one block is stacked on top of another, such as ancient Greek and Roman structures composed of large heavy members or statues placed on a pedestal, are examples.

In this paper, it is investigated the rocking response of two stacked rigid blocks placed on a seismic isolation device. The dynamics of this multi-degree of freedom system is briefly summarized, together with the conditions associated to an impact or an acceleration involving a change in configuration.

Many parameters govern the response of the system and to understand their influence on the dynamic behavior a sine pulse analysis is carried out. The study highlights how, for large period pulses or short period devices, the response of the isolated system can be amplified compared to the scenario where the blocks are placed on a rigid foundation. This phenomenon is due to the amplification, in terms of acceleration, of the isolation device for specific ratios between the period of the pulse and that of the isolator, therefore the need of a careful design of the device is evident.

Keywords: multibody dynamics; overturning stability of art objects.

 

* Corresponding author.

 

ASSISi conference,

Session: GS09_ASSISi - Seismic protection of non-structural elements and equipment, statues and art objects

 


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