Evaluation of overstrength-based interaction checks for columns in steel moment frames
Evaluation of overstrength-based interaction checks for columns in steel moment frames
Current design guidelines in the United States require a check for only column axial force under overstrength seismic loads for capacity-designed steel moment frames. A study is presented to examine the implications of this guidance, which disregards the column interaction check (including both axial force and moment) under overstrength seismic loads. A set of thirteen steel moment frames are designed using multiple rules that apply and disregard overstrength, drift, and cross-sectional compactness checks in various combinations. The frames are subjected to a suite of simulations including linear elastic, nonlinear static pushover, nonlinear response history, and continuum finite element simulations that are able to represent a range of physical behavior modes in the columns including interactive nonlinear geometric instabilities that could trigger loss of the load carrying capacity of the member. The simulations indicate no significant distinction between the seismic performance of steel moment resisting frames designed as per current code-based provisions (i.e., disregarding the column interaction check for overstrength seismic loads), and those designed with the use of the interaction check, with each providing acceptable response without failure. The simulations also indicate that design checks for drift and cross-sectional compactness play a significant role ensuring acceptable response, providing additional margin of safety beyond the member strength checks.
Steel moment-resisting frames, Seismic response, Continuum finite element analysis, Design guidelines, Steel columns, Seismic stability
Falborski, Tomasz
5484229e-ff0f-465a-9953-49516bbec22d
Murtas, Greta
a76909a5-fbfd-4efd-aec4-514a52471a88
Elkady, Ahmed
8e55de89-dff4-4f84-90ed-6af476e328a8
Lignos, Dimitrios
9f55ad65-7b12-4ad6-972c-5a967ec0497b
Kanvinde, Amit
8abdc8de-7c39-476c-a204-02e59e103ef5
2 November 2024
Falborski, Tomasz
5484229e-ff0f-465a-9953-49516bbec22d
Murtas, Greta
a76909a5-fbfd-4efd-aec4-514a52471a88
Elkady, Ahmed
8e55de89-dff4-4f84-90ed-6af476e328a8
Lignos, Dimitrios
9f55ad65-7b12-4ad6-972c-5a967ec0497b
Kanvinde, Amit
8abdc8de-7c39-476c-a204-02e59e103ef5
Falborski, Tomasz, Murtas, Greta, Elkady, Ahmed, Lignos, Dimitrios and Kanvinde, Amit
(2024)
Evaluation of overstrength-based interaction checks for columns in steel moment frames.
Journal of Constructional Steel Research, 224 (Pt. A), [109123].
(doi:10.1016/j.jcsr.2024.109123).
Abstract
Current design guidelines in the United States require a check for only column axial force under overstrength seismic loads for capacity-designed steel moment frames. A study is presented to examine the implications of this guidance, which disregards the column interaction check (including both axial force and moment) under overstrength seismic loads. A set of thirteen steel moment frames are designed using multiple rules that apply and disregard overstrength, drift, and cross-sectional compactness checks in various combinations. The frames are subjected to a suite of simulations including linear elastic, nonlinear static pushover, nonlinear response history, and continuum finite element simulations that are able to represent a range of physical behavior modes in the columns including interactive nonlinear geometric instabilities that could trigger loss of the load carrying capacity of the member. The simulations indicate no significant distinction between the seismic performance of steel moment resisting frames designed as per current code-based provisions (i.e., disregarding the column interaction check for overstrength seismic loads), and those designed with the use of the interaction check, with each providing acceptable response without failure. The simulations also indicate that design checks for drift and cross-sectional compactness play a significant role ensuring acceptable response, providing additional margin of safety beyond the member strength checks.
More information
Accepted/In Press date: 27 October 2024
e-pub ahead of print date: 2 November 2024
Published date: 2 November 2024
Keywords:
Steel moment-resisting frames, Seismic response, Continuum finite element analysis, Design guidelines, Steel columns, Seismic stability
Identifiers
Local EPrints ID: 499304
URI: http://eprints.soton.ac.uk/id/eprint/499304
ISSN: 0143-974X
PURE UUID: ff4723b7-2471-4128-aba6-f9ce7729a6f5
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Date deposited: 14 Mar 2025 17:40
Last modified: 15 Mar 2025 03:00
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Contributors
Author:
Tomasz Falborski
Author:
Greta Murtas
Author:
Dimitrios Lignos
Author:
Amit Kanvinde
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