Sarira Motaref scite author profile

Two one-third-scale precast concrete segmental column models with energy-dissipating plastic hinges were designed and tested on a shake table at the University of Nevada, Reno. Conventional reinforced concrete was used in the plastic hinge of one column (SC-2). In the other model, a built-in elastomeric pad integrated with the footing and a concrete segment constituted the plastic hinge (SBR-1). The purpose of using the pad was to minimize damage while dissipating energy through yielding of the longitudinal bars and deformation of the pad. Both columns were subjected to the same ground motion as was recorded at the Sylmar station during the 1994 Northridge, California, earthquake with increasing amplitudes until failure. Compared with conventional precast concrete segmental columns, both SC-2 and SBR-1 showed superior performance, such as minimal residual displacement and larger energy dissipation. SBR-1 with the elastomeric bearing pad dissipated more energy and was free from damage in the plastic hinge zone.

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Influence of fiber orientation and shell thickness on the axial compressive behavior of concrete-filled fiber-reinforced polymer tubes

Hain

Motaref

Zaghi

2019

Construction and Building Materials

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Earthquake-Resistant Bridges of the Future with Advanced Materials

Saiidi

Vosooghi²,

Cruz

et al. 2014

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Sarira Motaref

Shake Table Studies of Energy-Dissipating Segmental Bridge Columns

Experimental Study of Precast Bridge Columns with Built-In Elastomer

Influence of fiber orientation and shell thickness on the axial compressive behavior of concrete-filled fiber-reinforced polymer tubes

Earthquake-Resistant Bridges of the Future with Advanced Materials

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