A Superelastic Retrofitting Method for Mitigating the Effects of Seismic Excitations on Irregular Bridges

IF 1 Q4 ENGINEERING, CIVIL
M. Ghassemieh, Seyed Mohyeddin Ghodratian, Mohammad Khanmohmmadi, M. Baei
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引用次数: 2

Abstract

Irregularities in bridge pier stiffness concentrate the ductility demand on short piers; while not operating on the longer and more flexible ones. The existence of non-uniform, ductility demand distribution in bridges significantly influences seismic response. As such, this paper proposes a new approach for balancing the ductility demand in irregular bridges by utilizing shape memory alloys (SMAs). An irregular, single column bent viaduct with unequal pier heights is modeled and used as a reference bridge. To enhance seismic behavior of the bridge, a fixed bearing at the top of the short pier is replaced by a sliding bearing and two groups of SMA bars. SMAs are designed to keep their maximum strain within the super-elastic range. The seismic response of the controlled bridge is compared with a reference bridge through parametric studies using a set of suitable ground motion records. Study parameters include SMA lengths, short pier reinforcement ratios, design strain of SMA elements, and the heights of the medium and long piers. The proposed method successfully reduced the response of the short pier and, hence, improved the overall seismic behavior.
一种减轻不规则桥梁地震激励影响的超弹性加固方法
桥墩刚度的不规则性集中了对短墩延性的要求;而不在更长和更灵活的上操作。桥梁延性需求分布的不均匀性对地震反应的影响很大。因此,本文提出了一种利用形状记忆合金(SMA)来平衡不规则桥梁延性需求的新方法。对桥墩高度不等的不规则单柱弯高架桥进行建模,并将其用作参考桥梁。为了提高桥梁的抗震性能,将短墩顶部的固定支座改为滑动支座和两组SMA筋。SMA被设计为将其最大应变保持在超弹性范围内。通过使用一组合适的地震动记录进行参数研究,将受控桥梁的地震响应与参考桥梁进行比较。研究参数包括SMA长度、短墩配筋率、SMA构件的设计应变以及中长墩的高度。所提出的方法成功地降低了短墩的响应,从而改善了整体抗震性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
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