Optimum displacement profile for the direct displacement-based design of steel moment-resisting frames

The direct displacement-based design (DDBD) procedure is well established for designing reinforced concrete and steel moment-resisting frames (SMRFs). However, a limited number of researches is available on optimum DDBD of SMRFs. Furthermore, the nonlinear time-history analysis response of structure...

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Vydané v:Structures (Oxford) Ročník 44; s. 323 - 342
Hlavní autori: Arab, Mohammadamin, Tajmir Riahi, Hossein, Daei, Maryam
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 01.10.2022
Predmet:
Design Displacement Profile
Direct Displacement Based Design
Nonlinear Time History Analysis
Particle Swarm Optimization Algorithm
Steel Moment-resisting Frame
Nonlinear Time History Analysis
Particle Swarm Optimization Algorithm
Direct Displacement Based Design
Steel Moment-resisting Frame
Design Displacement Profile
ISSN:2352-0124, 2352-0124
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Abstract The direct displacement-based design (DDBD) procedure is well established for designing reinforced concrete and steel moment-resisting frames (SMRFs). However, a limited number of researches is available on optimum DDBD of SMRFs. Furthermore, the nonlinear time-history analysis response of structures designed based on this procedure is inconsistent with its initial assumptions. Design displacement profile is one of the most essential and influential parameters in the DDBD method because it can impress other design parameters. In this paper, an optimum displacement profile is proposed to improve the results of the DDBD procedure via using the particle swarm optimization (PSO) algorithm. In this regard, nine SMRFs with a different number of stories have been designed using the DDBD procedure. Nonlinear time history analyses are performed for these frames using OpenSees software. The models are subjected to a set of 20 ground motion records. Then, PSO algorithm has been used to optimize the displacement profile of the DDBD procedure to achieve uniform drift distribution along with the height of the frames. Finally, based on regression analysis, the optimum design displacement profile for SMRFs with a different number of stories is formulated. The proposed equations show an average reduction of about 20% and 40% in steel usage and design base shear of the frames, respectively, while they have uniform drift along their heights.
AbstractList The direct displacement-based design (DDBD) procedure is well established for designing reinforced concrete and steel moment-resisting frames (SMRFs). However, a limited number of researches is available on optimum DDBD of SMRFs. Furthermore, the nonlinear time-history analysis response of structures designed based on this procedure is inconsistent with its initial assumptions. Design displacement profile is one of the most essential and influential parameters in the DDBD method because it can impress other design parameters. In this paper, an optimum displacement profile is proposed to improve the results of the DDBD procedure via using the particle swarm optimization (PSO) algorithm. In this regard, nine SMRFs with a different number of stories have been designed using the DDBD procedure. Nonlinear time history analyses are performed for these frames using OpenSees software. The models are subjected to a set of 20 ground motion records. Then, PSO algorithm has been used to optimize the displacement profile of the DDBD procedure to achieve uniform drift distribution along with the height of the frames. Finally, based on regression analysis, the optimum design displacement profile for SMRFs with a different number of stories is formulated. The proposed equations show an average reduction of about 20% and 40% in steel usage and design base shear of the frames, respectively, while they have uniform drift along their heights.
Author Arab, Mohammadamin
Tajmir Riahi, Hossein
Daei, Maryam
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Keywords Nonlinear Time History Analysis
Particle Swarm Optimization Algorithm
Direct Displacement Based Design
Steel Moment-resisting Frame
Design Displacement Profile
Language English
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Snippet The direct displacement-based design (DDBD) procedure is well established for designing reinforced concrete and steel moment-resisting frames (SMRFs). However,...
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StartPage 323
SubjectTerms Design Displacement Profile
Direct Displacement Based Design
Nonlinear Time History Analysis
Particle Swarm Optimization Algorithm
Steel Moment-resisting Frame
Title Optimum displacement profile for the direct displacement-based design of steel moment-resisting frames
URI https://dx.doi.org/10.1016/j.istruc.2022.07.082
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