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Model Parameter Estimation for Hysteretic Behavior Simulation of FRP-Jacketed Reinforced Concrete Columnsopen access

Authors
Kim, Yoon JaeLee, Chang SeokJeon, Jong-Su
Issue Date
May-2025
Publisher
WILEY
Keywords
FRP-jacketed RC column; hysteretic behavior; lumped plasticity; model parameter; seismic retrofit
Citation
Earthquake Engineering and Structural Dynamics, v.54, no.6, pp 1657 - 1677
Pages
21
Indexed
SCIE
SCOPUS
Journal Title
Earthquake Engineering and Structural Dynamics
Volume
54
Number
6
Start Page
1657
End Page
1677
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212359
DOI
10.1002/eqe.4329
ISSN
0098-8847
1096-9845
Abstract
Fiber-reinforced polymer (FRP) composite jackets have been widely used to retrofit reinforced concrete (RC) columns within structural systems. This study proposes a lumped plasticity model to simulate the nonlinear load-deformation response of FRP-jacketed RC columns under seismic loading. An experimental database of 98 FRP-jacketed RC columns was assembled, including those with partial- or full-height jackets, circular or rectangular cross-sections, continuous or lap-spliced longitudinal reinforcement, and various FRP materials. The database is used to calibrate parameters of the hysteretic material model. Regression analysis was conducted to develop model predictive equations. Each predictive equation was established using leave-one-out cross-validation from 10 candidate design variables. Among the candidate FRP-related design variables, the FRP quantitative ratio and its ultimate strength were selected for inclusion in the empirical model parameter equations. The proposed model demonstrates better accuracy than the existing model in reproducing experimental load-deformation responses. Finally, the proposed model was applied to an FRP-retrofitted RC building frame with lap-spliced rebars to examine the seismic performance of the FRP retrofit compared with existing approaches. Overall, the proposed lumped plasticity approach for FRP-jacketed RC columns offers improved versatility, accommodating a broad spectrum of column geometries, and computational efficiency with reasonable accuracy in predicting load-deformation response.
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