Enhancing the cyclic performance of shear links using longitudinal stiffeners

Shear links constitute the most crucial part of eccentrically braced frames. Their main responsibility is to dissipate the earthquake input energy away from the main structural members; therefore, keeping them responding within the elastic stage. However, the rotation capacity of vertical shear link...

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Published inJournal of constructional steel research Vol. 211; p. 108200
Main Authors Elgammal, Ahmed, Hassanein, M.F., Seleemah, Ayman
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2023
Subjects
Cyclic behaviour
Ductility
Energy dissipation
Longitudinal stiffener
Shear link
Longitudinal stiffener
Ductility
Energy dissipation
Shear link
Cyclic behaviour
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Abstract Shear links constitute the most crucial part of eccentrically braced frames. Their main responsibility is to dissipate the earthquake input energy away from the main structural members; therefore, keeping them responding within the elastic stage. However, the rotation capacity of vertical shear links directly influences the allowable interstorey drift of the eccentrically braced frame and the energy dissipation capacity. To enhance their rotation capacity and performance, transverse stiffeners in vertical shear links are proposed to be replaced with longitudinal stiffeners in this research. A numerical study is conducted, using Ansys Workbench, on fourteen shear links with different parameters to investigate their cyclic behaviour. The considered parameters are the stiffener configuration (transverse or longitudinal), web thickness, stiffeners number, stiffeners thickness, flanges width, and web aspect ratio. The influence of these parameters on the failure mode, hysteretic response, mechanical parameters (strength, rotation capacity, etc.), ductility, cyclic web shear buckling, and energy dissipation is analysed and discussed. The results demonstrate that longitudinally stiffened shear links surpass conventional transversely stiffened ones in terms of strength, overstrength, rotation capacity, ductility, web shear buckling resistance, and energy dissipation. Additionally, it is found that the current design provisions of EN 1998–1 cannot accurately predict the yield shear strength of longitudinally stiffened shear links. Moreover, numerous remarks involved with the influence of different parameters on the cyclic performance of longitudinally stiffened shear links are presented and discussed.
AbstractList Shear links constitute the most crucial part of eccentrically braced frames. Their main responsibility is to dissipate the earthquake input energy away from the main structural members; therefore, keeping them responding within the elastic stage. However, the rotation capacity of vertical shear links directly influences the allowable interstorey drift of the eccentrically braced frame and the energy dissipation capacity. To enhance their rotation capacity and performance, transverse stiffeners in vertical shear links are proposed to be replaced with longitudinal stiffeners in this research. A numerical study is conducted, using Ansys Workbench, on fourteen shear links with different parameters to investigate their cyclic behaviour. The considered parameters are the stiffener configuration (transverse or longitudinal), web thickness, stiffeners number, stiffeners thickness, flanges width, and web aspect ratio. The influence of these parameters on the failure mode, hysteretic response, mechanical parameters (strength, rotation capacity, etc.), ductility, cyclic web shear buckling, and energy dissipation is analysed and discussed. The results demonstrate that longitudinally stiffened shear links surpass conventional transversely stiffened ones in terms of strength, overstrength, rotation capacity, ductility, web shear buckling resistance, and energy dissipation. Additionally, it is found that the current design provisions of EN 1998–1 cannot accurately predict the yield shear strength of longitudinally stiffened shear links. Moreover, numerous remarks involved with the influence of different parameters on the cyclic performance of longitudinally stiffened shear links are presented and discussed.
ArticleNumber 108200
Author Elgammal, Ahmed
Hassanein, M.F.
Seleemah, Ayman
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  givenname: Ahmed
  surname: Elgammal
  fullname: Elgammal, Ahmed
  email: ahmed.elgammal@deltauniv.edu.eg
  organization: Civil Engineering Department, Faculty of Engineering, Delta University for Science and Technology, Gamasa, 11152, Egypt
– sequence: 2
  givenname: M.F.
  surname: Hassanein
  fullname: Hassanein, M.F.
  email: Mostafa.fahmi@f-eng.tanta.edu.eg
  organization: Structural Engineering Department, Faculty of Engineering, Tanta University, Tanta 31527, Egypt
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  givenname: Ayman
  surname: Seleemah
  fullname: Seleemah, Ayman
  email: seleemah@f-eng.tanta.edu.eg
  organization: Structural Engineering Department, Faculty of Engineering, Tanta University, Tanta 31527, Egypt
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crossref_primary_10_1007_s13369_024_08908_8
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Keywords Longitudinal stiffener
Ductility
Energy dissipation
Shear link
Cyclic behaviour
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    fullname: American Institute of Steel Construction
SSID ssj0008938
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Snippet Shear links constitute the most crucial part of eccentrically braced frames. Their main responsibility is to dissipate the earthquake input energy away from...
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elsevier
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StartPage 108200
SubjectTerms Cyclic behaviour
Ductility
Energy dissipation
Longitudinal stiffener
Shear link
Title Enhancing the cyclic performance of shear links using longitudinal stiffeners
URI https://dx.doi.org/10.1016/j.jcsr.2023.108200
Volume 211
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