Anastasios Tsiavos scite author profile

SUMMARY Structural design code provisions worldwide prescribe relatively small seismic force reduction factors for seismically base‐isolated structures, making their response to design‐level earthquake excitation essentially elastic. This paper uses the method of dimensional analysis to prove that; in most cases, this is not a conservative design approach but a necessity that emerges from the dynamics of base‐isolated structures. It is shown that allowing typical base‐isolated structures to yield results in large displacement ductility demands for the structure. This phenomenon is caused by the change in the nature of the ground motion excitation as it is transmitted to the structure through the seismic base isolation system as well as by the change in the distribution of displacements between the structure and the isolation bearings caused by yielding of the isolated structure. Copyright © 2013 John Wiley & Sons, Ltd.

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A sand-rubber deformable granular layer as a low-cost seismic isolation strategy in developing countries: Experimental investigation

Tsiavos

Alexander

Diambra

et al. 2019

Soil Dynamics and Earthquake Engineering

108

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Large-scale experimental investigation of a low-cost PVC ‘sand-wich’ (PVC-s) seismic isolation for developing countries

et al. 2020

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This study presents a large-scale experimental investigation on the seismic performance of an innovative, low-cost seismic isolation system for developing countries. It is based on the beneficial effect of the encapsulation of sand grains between two PVC surfaces on the initiation of sliding and the dissipation of seismic energy between the surfaces. A three-times scaled-down, idealized, seismically isolated model of a prototype single-story structure located in Nepal is subjected to an ensemble of recorded earthquake ground motion excitations. The experimentally derived response of the seismically isolated structure is compared with the response of the corresponding fixed-base structure. This system is part of a wider hybrid design approach where the structure is designed to resist the seismic forces at the design acceleration level. The seismic isolation system sets an upper bound to the response of the structure for ground motion excitations exceeding the design level.

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Dynamics of inelastic base-isolated structures subjected to recorded ground motions

Tsiavos

Mackie

Vassiliou

et al. 2016

Bull Earthquake Eng

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Low-cost hybrid design of masonry structures for developing countries: Shaking table tests

Tsiavos

Sextos

Stavridis

et al. 2021

Soil Dynamics and Earthquake Engineering

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