Gérard-Philippe Zéhil scite author profile

Rolling isolation systems (RISs) protect mission-critical equipment and valuable property from earthquake hazards by decoupling the dynamic responses of vibration-sensitive objects from horizontal floor motions. These responses involve the constrained rolling of steel balls between bowl-shaped surfaces. The light damping of steel balls rolling between steel plates can be augmented by adhering thin rubber sheets to the plates, thereby increasing the rolling resistance and decreasing the displacement demand on the RIS. An assessment of the ability of lightly-and heavily-damped RISs to mitigate the hazard of seismically induced failures requires high-fidelity models that can adequately capture the systems' intrinsic nonlinear behavior. The simplified model presented in this paper is applicable to RISs with any potential energy function, is amenable to both lightly-and heavily-damped RISs, and is validated through the successful prediction of peak responses for a wide range of disturbance frequencies and intensities. The validated model can therefore be used to compute the spectra of peak floor motions for which displacement demands equal capacity. These spectra are compared with representative floor motion spectra provided by the American Society of Civil Engineers 7-10. The damping provided by rolling between thin viscoelastic sheets increases the allowable floor motion intensity by a factor of 2-3, depending on the period of motion. Acceleration responses of isolation systems with damping supplied in this fashion do not grow with increased damping, even for short-period excitations. Figure 1. Exploded view of a rolling equipment isolation system.level or return period is of particular importance in the probabilistic seismic hazard analysis of contents protected by isolation. Estimating the displacement demand for an equipment isolation system corresponding to a specific installation, building site, and hazard level requires, in part, a predictive model of the isolation system behavior.To date, researchers have focused primarily on the single-axis behavior of equipment isolation systems, neglecting the coupling between transverse responses. Experimental tests on equipment isolation systems are sparse [4,[8][9][10], especially for multi-axis disturbances [11]. The prediction of the response of equipment isolation systems and their ability to protect building contents requires models that can capture the observed nonlinear behavior of actual isolation systems subjected to multi-axis shaking. Accordingly, the focus of this paper is on the experimental validation of a multi-axis, nonlinear model of rolling isolation systems (RISs) to further attenuate responses.Rolling isolation systems [12] are widely used to isolate mainframes, LAN racks, electronics enclosures, telecommunications switches, and other mission-critical equipment and valuable property. Museums around the world have adopted isolation systems to protect objects (such as The Statue of Hermes and The Gates of Hell) from earthquake-induced floor motions [13]...

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Feasibility of concrete mixtures containing cross-linked polyethylene waste materials

Zéhil

Assaad

2019

Construction and Building Materials

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The macula in pediatric glaucoma: quantifying the inner and outer layers via optical coherence tomography automatic segmentation

Silverstein

Freedman

Zéhil

et al. 2016

Journal of American Association for Pediatric Ophthalmology and

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Effects of Polypropylene Fibers on the Physical and Mechanical Properties of Recycled Aggregate Concrete

Matar

Zéhil

2019

J. Wuhan Univ. Technol.-Mat. Sci. Edit.

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Unified constitutive modeling of rubber-like materials under diverse loading conditions

Zéhil¹,

Gavin²

2013

International Journal of Engineering Science

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