Exploration to novel arrangements of longitudinal reinforcement of gravity railway bridge pier by shaking table test

Exploration to novel arrangements of longitudinal reinforcement of gravity railway bridge pier by shaking table test

Gravity pier is widely used in the high-speed railway in China. However, it is vulnerable to earthquakes due to the low longitudinal reinforcement ratio (generally less than 0.5%). This study investigated ratios and arrangement forms of the longitudinal reinforcement of gravity piers. Four scaled sp...

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Bibliographic Details
Published in:Structures (Oxford) Vol. 41; pp. 1278 - 1287
Main Authors: Li, Jiawen, Ding, Mingbo, Feng, Huaiping, Zhao, Hui, Wang, Zhiman
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-07-2022
Subjects:
Gravity railway pier
Longitudinal reinforcement ratio
Reinforcement arrangements
Seismic performance
Shaking table test
Shaking table test
Reinforcement arrangements
Longitudinal reinforcement ratio
Gravity railway pier
Seismic performance
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Summary:Gravity pier is widely used in the high-speed railway in China. However, it is vulnerable to earthquakes due to the low longitudinal reinforcement ratio (generally less than 0.5%). This study investigated ratios and arrangement forms of the longitudinal reinforcement of gravity piers. Four scaled specimens were designed and constructed, including two novel longitudinal reinforcement forms, to explore more reasonable arrangements economically and effectively by shaking table test. The test adopted the El-Centro earthquake record to load. The crack patterns, acceleration, and displacement responses of specimens were recorded and analyzed after each loading. The results showed the two novel forms proposed in this study have exhibited excellent seismic behavior than traditional forms. We validated rationalities and economies of the two novel longitudinal reinforcement arrangement forms for gravity piers. These two proposed in the study may provide references for the seismic design of high-speed railway gravity piers.
ISSN:2352-0124
2352-0124
DOI:10.1016/j.istruc.2022.05.065