Osman E. Ozbulut scite author profile

Shape memory alloys (SMAs) are a class of alloys that possess numerous unique characteristics. They offer complete shape recovery after experiencing large strains, energy dissipation through hysteresis of response, excellent resistance to corrosion, high fatigue resistance, and high strength. These features of SMAs, which can be exploited for the use in control of civil structures subjected to seismic events, have attracted the interest of many researchers in structural engineering over the past decades. This article presents an extensive review of seismic applications of SMAs. First, a basic description of two unique effects of SMAs, namely shape memory and superelastic effect, is provided. Then, the mechanical characteristics of the most commonly used SMAs are discussed. Next, the material models proposed to capture the response of SMAs in seismic applications are briefly introduced. Finally, applications of SMAs to buildings and bridges to improve seismic response are thoroughly reviewed.

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Application of semi-active control strategies for seismic protection of buildings with MR dampers

Bitaraf

Ozbulut

Hurlebaus

et al. 2010

Engineering Structures

126

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Seismic assessment of bridge structures isolated by a shape memory alloy/rubber-based isolation system

Ozbulut

Hurlebaus

2010

Smart Mater. Struct.

104

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This paper explores the effectiveness of shape memory alloy (SMA)/rubber-based isolation systems for seismic protection of bridges against near-field earthquakes by performing a sensitivity analysis. The isolation system considered in this study consists of a laminated rubber bearing, which provides lateral flexibility while supplying high vertical load-carrying capacity and an auxiliary device made of multiple loops of SMA wires. The SMA device offers additional energy dissipating and re-centering capability. A three-span continuous bridge is modeled with the SMA/rubber-based (SRB) isolation system. Numerical simulations of the bridge are conducted for various near-field ground motions that are spectrally matched to a target design spectrum. The normalized forward transformation strength, forward transformation displacement and pre-strain level of the SMA device, ambient temperature and the lateral stiffness of the rubber bearings are selected as parameters of the sensitivity study. The variation of seismic response of the bridge with considered parameters is assessed. Also, the performance of the SRB isolation system with optimal design parameters is compared with an SMA-based sliding isolation system. The results indicate that the SRB isolation system can successfully reduce the seismic response of highway bridges; however, a smart isolation system that combines sliding bearings together with an SMA device is more efficient than the SRB isolation system.

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Shape Memory Alloy Cables for Structural Applications

Ozbulut

Daghash

Sherif

2016

J. Mater. Civ. Eng.

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Osman E. Ozbulut

Seismic Response Control Using Shape Memory Alloys: A Review

Application of semi-active control strategies for seismic protection of buildings with MR dampers

Seismic assessment of bridge structures isolated by a shape memory alloy/rubber-based isolation system

Shape Memory Alloy Cables for Structural Applications

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