Rajesh Rupakhety scite author profile

This study focuses on the characteristics of near-fault ground motions in the forward-direction and structural response associated with them. These ground motions are narrow-banded in nature and are characterized by a predominant period at which structures excited by them are severely affected. In this work, predominant period is defined as the undamped natural period of a single-degree-of-freedom (SDOF) oscillator at which its 5% damped linear elastic pseudo-spectral velocity (PSV) contains a clear and dominant peak. It is found that a linear relationship exists between predominant period and seismic moment. An empirical equation describing this relationship is presented by using a large set of accelerograms. Attenuation equations are developed to estimate peak ground velocity (PGV) as a function of earthquake magnitude and source-to-site distance. In addition, a predictive equation for spectral shapes of PSV (i.e., PSV normalized by PGV) is presented as a continuous function of the undamped natural period of SDOF oscillators. The model is independent of PGV, and can be used in conjunction with any available PGV attenuation relation applicable to near-fault ground motion exhibiting forward-directivity effects. Furthermore, viscous damping of the SDOF is included in the model as a continuous parameter, eliminating the use of so-called damping correction factors. Finally, simple equations relating force reduction factors and displacement ductility of elasto-plastic SDOF systems are presented.

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Experimental Study of a New Bar Damper Device for Vibration Control of Structures Subjected to Earthquake Loads

Ghaedi

Ibrahim

Javanmardi

et al. 2018

Journal of Earthquake Engineering

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Ground-motion prediction equations (GMPEs) for inelastic response and structural behaviour factors

Rupakhety

Sigbjörnsson

2009

Bull Earthquake Eng

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The objective of this paper is to present ground-motion prediction equations describing constant-ductility inelastic spectral ordinates and structural behaviour factors. These equations are intended for application within the framework of Eurocode 8. Most of the strong-motion data used in the present work is obtained from the ISESD (Internet Site for European Strong-motion Data) databank. Present analysis includes ground motion records from significant Icelandic earthquakes, which are augmented by records obtained from continental Europe and the Middle East. In all cases the selected ground motion records are generated during shallow earthquakes within a distance of 100 km from the recording station. The classification of site conditions in the present work is based on the Eurocode 8 definition.

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Effect of pulse-like near-fault ground motions on utility-scale land-based wind turbines

Sigurðsson

Rupakhety

Rahimi

et al. 2019

Bull Earthquake Eng

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Seismic fragility of structural and non-structural elements of Nepali RC buildings

Gautam

Adhikari²,

Rupakhety

2021

Engineering Structures

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