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Experimental Parametric Study and Phenomenological Modeling of a Deformable Rolling Seismic Isolator

Katsamakas, Antonios A. / Vassiliou, Michalis F.

This paper presents an extensive experimental study of a low-cost, high-performance seismic isolator comprising a deformable sphere rolling on concrete surfaces. Polyurethane spheres, with and without steel core, rolling on flat or spherical concrete plates, are investigated. Lateral cyclic tests under large displacements demonstrated a rolling friction coefficient between 3.7% and 7.1%. When tested in a shake table under 1170 ground motions, the isolators substantially reduced the acceleration transmitted to the superstructure (to less than 0.15 g) while maintaining reasonable peak and negligible residual displacements. A phenomenological model was calibrated on the lateral cyclic tests and predicted the shake table tests with reasonable accuracy.

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Experimental Parametric Study and Phenomenological Modeling of a Deformable Rolling Seismic Isolator

Katsamakas, Antonios A. / Vassiliou, Michalis F.

This paper presents an extensive experimental study of a low-cost, high-performance seismic isolator comprising a deformable sphere rolling on concrete surfaces. Polyurethane spheres, with and without steel core, rolling on flat or spherical concrete plates, are investigated. Lateral cyclic tests under large displacements demonstrated a rolling friction coefficient between 3.7% and 7.1%. When tested in a shake table under 1170 ground motions, the isolators substantially reduced the acceleration transmitted to the superstructure (to less than 0.15 g) while maintaining reasonable peak and negligible residual displacements. A phenomenological model was calibrated on the lateral cyclic tests and predicted the shake table tests with reasonable accuracy.

Experimental Parametric Study and Phenomenological Modeling of a Deformable Rolling Seismic Isolator

Katsamakas, Antonios A. / Vassiliou, Michalis F.

This paper presents an extensive experimental study of a low-cost, high-performance seismic isolator comprising a deformable sphere rolling on concrete surfaces. Polyurethane spheres, with and without steel core, rolling on flat or spherical concrete plates, are investigated. Lateral cyclic tests under large displacements demonstrated a rolling friction coefficient between 3.7% and 7.1%. When tested in a shake table under 1170 ground motions, the isolators substantially reduced the acceleration transmitted to the superstructure (to less than 0.15 g) while maintaining reasonable peak and negligible residual displacements. A phenomenological model was calibrated on the lateral cyclic tests and predicted the shake table tests with reasonable accuracy.

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Titel:

Experimental Parametric Study and Phenomenological Modeling of a Deformable Rolling Seismic Isolator

Beteiligte:

Katsamakas, Antonios A. (Autor:in) / Vassiliou, Michalis F. (Autor:in)

Erschienen in:

Journal of Earthquake Engineering ; 27 ; 4664-4693

Erscheinungsdatum:

10.12.2023

Format / Umfang:

30 pages

ISSN:

1363-2469 , 1559-808X

DOI:

https://doi.org/10.1080/13632469.2023.2189978

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Unbekannt

Schlagwörter:

Seismic isolation , earthquake engineering for the developing world , rolling bearings , rubber bearings , seismic testing , numerical modeling

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