Seismic performance of earthquake-damaged corroded reinforced concrete beam-column joints retrofitted with basalt fiber-reinforced polymer sheets

This present research conducted an experimental study on the influence of different earthquake damages on the seismic performances of aged reinforced concrete (RC) beam-column joints retrofitted with basalt fiber-reinforced polymer (BFRP) sheets under cyclic loadings. Six beam-column joints included...

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Published inStructure and infrastructure engineering Vol. 20; no. 10; pp. 1451 - 1467
Main Authors Shen, Dejian, Li, Ming, Yang, Qun, Wen, Chuyuan, Liu, Ci, Kang, Jiacheng, Cao, Xuyang
Format Journal Article
LanguageEnglish
Published Taylor & Francis 02.10.2024
Subjects
basalt fiber-reinforced polymer
beam-column joints
cyclic loading
earthquake damage
Reinforced concrete
reinforcement corrosion
retrofitting
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ISSN1573-2479
1744-8980
DOI10.1080/15732479.2022.2147197

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Abstract This present research conducted an experimental study on the influence of different earthquake damages on the seismic performances of aged reinforced concrete (RC) beam-column joints retrofitted with basalt fiber-reinforced polymer (BFRP) sheets under cyclic loadings. Six beam-column joints included one benchmark specimen, one uncorroded specimen retrofitted with BFRP sheets, and four earthquake-damaged corroded specimens with the corrosion rates of 0% and 9% retrofitted with BFRP sheets. Test results demonstrated that the seismic performances of earthquake-damaged corroded specimens effectually improved after retrofitting with BFRP sheets, and the retrofitting effectiveness was significantly affected by the earthquake-damaged levels. The bucking of stirrups, spalling and crushing of concrete of retrofitted specimens were effectually postponed, while the ductility of corroded and uncorroded specimens under the earthquake damages increased after retrofitting with BFRP sheets. The total cumulative energy dissipation and final stiffness of retrofitted specimens considerably improved with the maximum increase of 22.3% and 14.3% comparing to those of benchmark specimen, respectively. Besides, the models for predicting the shear strength of RC beam-column joint cores considering the influences of earthquake damage, reinforcement corrosion, and FRP retrofitting were proposed.
AbstractList This present research conducted an experimental study on the influence of different earthquake damages on the seismic performances of aged reinforced concrete (RC) beam-column joints retrofitted with basalt fiber-reinforced polymer (BFRP) sheets under cyclic loadings. Six beam-column joints included one benchmark specimen, one uncorroded specimen retrofitted with BFRP sheets, and four earthquake-damaged corroded specimens with the corrosion rates of 0% and 9% retrofitted with BFRP sheets. Test results demonstrated that the seismic performances of earthquake-damaged corroded specimens effectually improved after retrofitting with BFRP sheets, and the retrofitting effectiveness was significantly affected by the earthquake-damaged levels. The bucking of stirrups, spalling and crushing of concrete of retrofitted specimens were effectually postponed, while the ductility of corroded and uncorroded specimens under the earthquake damages increased after retrofitting with BFRP sheets. The total cumulative energy dissipation and final stiffness of retrofitted specimens considerably improved with the maximum increase of 22.3% and 14.3% comparing to those of benchmark specimen, respectively. Besides, the models for predicting the shear strength of RC beam-column joint cores considering the influences of earthquake damage, reinforcement corrosion, and FRP retrofitting were proposed.
Author Wen, Chuyuan
Li, Ming
Shen, Dejian
Liu, Ci
Cao, Xuyang
Yang, Qun
Kang, Jiacheng
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– volume: 16
  start-page: 533
  issue: 5
  year: 2019
  ident: e_1_3_3_43_1
  article-title: Cyclic performance of steel fiber-reinforced concrete exterior beam-column joints
  publication-title: Earthquakes and Structures,
SSID ssj0038496
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Snippet This present research conducted an experimental study on the influence of different earthquake damages on the seismic performances of aged reinforced concrete...
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informaworld
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Publisher
StartPage 1451
SubjectTerms basalt fiber-reinforced polymer
beam-column joints
cyclic loading
earthquake damage
Reinforced concrete
reinforcement corrosion
retrofitting
Title Seismic performance of earthquake-damaged corroded reinforced concrete beam-column joints retrofitted with basalt fiber-reinforced polymer sheets
URI https://www.tandfonline.com/doi/abs/10.1080/15732479.2022.2147197
Volume 20
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