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Evaluation of Link Overstrength Factor for the Seismic Design of Eccentrically Braced Framesopen access

Authors
Hong, YoonsuYu, Eunjong
Issue Date
Nov-2024
Publisher
MDPI
Keywords
eccentrically braced frame; capacity design; multi-objective optimization; link overstrength factor; strain hardening; nonlinear dynamic analysis
Citation
Applied Sciences-basel, v.14, no.21, pp 1 - 19
Pages
19
Indexed
SCIE
SCOPUS
Journal Title
Applied Sciences-basel
Volume
14
Number
21
Start Page
1
End Page
19
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/198086
DOI
10.3390/app14219683
ISSN
2076-3417
2076-3417
Abstract
In eccentrically braced frames (EBFs), inelastic behavior is only permitted in the links. All members, except for the links, are designed according to the capacity design concept by using the link overstrength factor, Omega, so that they remain elastic even when the links develop their ultimate strength (including the strain-hardening effect). AISC 341 specifies that the Omega factor of link members must be 1.25 for beam and brace design and 1.1 for column design. In this study, the relevance of the current Omega factor was investigated. A total of 471 K-braced EBF systems with various conditions were designed using a multi-objective optimization technique, and nonlinear dynamic analyses were performed to evaluate the Omega factor. The results indicate that it is reasonable to use the current Omega factor for the design of beam outside link and brace; however, it leads to an overestimation of axial force in columns, especially in the lower stories of tall buildings. From the analysis results, a new Omega factor equation for column design was proposed. It was demonstrated that the structural quantities of 15-story frames designed using the proposed equation decreased by an average of 19% compared to those designed using the current Omega factor.
In eccentrically braced frames (EBFs), inelastic behavior is only permitted in the links. All members, except for the links, are designed according to the capacity design concept by using the link overstrength factor, Ω, so that they remain elastic even when the links develop their ultimate strength (including the strain-hardening effect). AISC 341 specifies that the Ω factor of link members must be 1.25 for beam and brace design and 1.1 for column design. In this study, the relevance of the current Ω factor was investigated. A total of 471 K-braced EBF systems with various conditions were designed using a multi-objective optimization technique, and nonlinear dynamic analyses were performed to evaluate the Ω factor. The results indicate that it is reasonable to use the current Ω factor for the design of beam outside link and brace; however, it leads to an overestimation of axial force in columns, especially in the lower stories of tall buildings. From the analysis results, a new Ω factor equation for column design was proposed. It was demonstrated that the structural quantities of 15-story frames designed using the proposed equation decreased by an average of 19% compared to those designed using the current Ω factor.
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