Seismic performance evaluation of reinforced concrete beam-column joints of existing buildings

Q2 Engineering
K. Leung, L. Lau
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引用次数: 0

Abstract

Common computer programs generally model beam-column joint (BCJ) as a finite point without physical property that will neither yield nor fail. However, this assumption is not appropriate for modelling existing buildings without seismic provisions where the shear capacities of BCJs were uncertain. This paper presented the finite element analysis and cyclic load test results of four full-scale edge column BCJ specimens with and without column and BCJ shear link detailing according to seismic provisions. The aim was to compare the numerical analysis and experimental results to establish a reduction factor between BCJ with and without seismic detailing provisions and to verify the accuracy of numerical analysis results. With the proposed reduction factor, non-seismic provisioned BCJ that will fail under seismic actions can be determined from general computer analysis programs and correspondingly strengthened if necessary to ensure that yielding occurs in structural members connected to the joint instead of brittle joint shear failure. Furthermore, splitting crack along the lower column axis was observed in all non-seismic provisioned specimens due to eccentricity between the upper and lower column load centre and inadequate link confinement in the lower column.
既有建筑钢筋混凝土梁柱节点抗震性能评价
常用的计算机程序一般将梁柱节点(BCJ)建模为一个没有物理性质的有限点,既不会屈服也不会破坏。然而,这种假设不适用于没有抗震规定的现有建筑的建模,因为bcj的抗剪能力不确定。本文根据抗震规定,给出了4个带柱和不带柱的足尺边柱BCJ试件的有限元分析和循环荷载试验结果,以及BCJ剪杆细部。将数值分析结果与实验结果进行对比,建立有与无地震详图规定的BCJ的折减系数,验证数值分析结果的准确性。利用所提出的折减系数,可以从一般的计算机分析程序中确定在地震作用下会发生破坏的非地震配置BCJ,并在必要时进行相应的加固,以确保与节理相连的结构构件发生屈服,而不是脆性节理的剪切破坏。此外,由于上下柱荷载中心之间的偏心和下柱链接约束不足,在所有无地震配置的试件中都观察到沿下柱轴线的分裂裂缝。
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
Transactions Hong Kong Institution of Engineers
Transactions Hong Kong Institution of Engineers Engineering-Engineering (all)
CiteScore
2.70
自引率
0.00%
发文量
22
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