Study on Seismic Behavior of Earthquake-Damaged Joints Retrofitted with CFRP in Hybrid Reinforced Concrete–Steel Frames
Xiaotong Ma, Tianxiang Guo, Yuxiao Xing, Ruize Qin, Huan Long, Chao Bao, Fusheng Cao, Ruixiao Hong

TL;DR
This study tests how adding carbon fiber to damaged building joints improves their ability to withstand earthquakes.
Contribution
A new seismic retrofit method using CFRP is proposed and validated through low-cycle load tests and finite element analysis.
Findings
Repaired joints showed a 33% increase in horizontal ultimate strength and 85% increase in energy dissipation.
Two layers of CFRP provided better performance than one layer.
Damage patterns shifted from surface to localized concrete deterioration at the column base.
Abstract
Mixed structures with lightweight steel added stories are particularly vulnerable to damage and failure at the joints during seismic events. To evaluate the secondary seismic behavior of the joints in lightweight steel added stories after seismic damage repair, a low-cycle load test was conducted in this study. Following the initial damage, carbon fiber-reinforced polymer (CFRP) was applied for reinforcement, along with epoxy resin for the repair of concrete cracks. The experimental analysis focused on the structural deformation, failure characteristics, and energy dissipation capacity in both the original and repaired joint states. On the basis of the experimental findings, finite element analysis was carried out to examine the influence of varying CFRP layer configurations on the seismic performance of the repaired joints. The results revealed a significant change in the damage…
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Taxonomy
TopicsStructural Behavior of Reinforced Concrete · Structural Load-Bearing Analysis · Innovative concrete reinforcement materials
