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Bibliographic Details
Main Authors: Menga, N., Bottiglione, F., Carbone, G.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.16880
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author Menga, N.
Bottiglione, F.
Carbone, G.
author_facet Menga, N.
Bottiglione, F.
Carbone, G.
contents In this paper, we study the dynamic behavior of a Rubber-Layer Roller Bearing (RLRB) interposed between a spring-mass elemental superstructure and a vibrating base. Thanks to the viscoelastic rolling contact between the rigid rollers and the rubber layers, the RLRB is able to provide a nonlinear damping behavior. The effect of the RLRB geometric and material parameters is investigated under periodic base excitation, showing that both periodic and aperiodic responses can be achieved. Specifically, since the viscoelastic damping is non-monotonic (bell shaped), there exist systemdynamic conditions involving the decreasing portion of the damping curve in which a strongly nonlinear behavior is experienced. In the second part of the paper, we investigate the effectiveness of the nonlinear device in terms of seismic isolation. Focusing on the mean shock of the Central Italy 2016 earthquake, we opportunely tune the material and geometrical RLRB parameters, showing that a significant reduction of both the peak and root-mean-square value of the inertial force acting on the superstructure is achieved, compared to the best performance of a linear base isolation system.
format Preprint
id arxiv_https___arxiv_org_abs_2401_16880
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The nonlinear dynamic behavior of a Rubber-Layer Roller Bearing (RLRB) for vibration isolation
Menga, N.
Bottiglione, F.
Carbone, G.
Applied Physics
In this paper, we study the dynamic behavior of a Rubber-Layer Roller Bearing (RLRB) interposed between a spring-mass elemental superstructure and a vibrating base. Thanks to the viscoelastic rolling contact between the rigid rollers and the rubber layers, the RLRB is able to provide a nonlinear damping behavior. The effect of the RLRB geometric and material parameters is investigated under periodic base excitation, showing that both periodic and aperiodic responses can be achieved. Specifically, since the viscoelastic damping is non-monotonic (bell shaped), there exist systemdynamic conditions involving the decreasing portion of the damping curve in which a strongly nonlinear behavior is experienced. In the second part of the paper, we investigate the effectiveness of the nonlinear device in terms of seismic isolation. Focusing on the mean shock of the Central Italy 2016 earthquake, we opportunely tune the material and geometrical RLRB parameters, showing that a significant reduction of both the peak and root-mean-square value of the inertial force acting on the superstructure is achieved, compared to the best performance of a linear base isolation system.
title The nonlinear dynamic behavior of a Rubber-Layer Roller Bearing (RLRB) for vibration isolation
topic Applied Physics
url https://arxiv.org/abs/2401.16880