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Stability requirements of deep steel wide-flange columns under cyclic loading

Stability requirements of deep steel wide-flange columns under cyclic loading
Stability requirements of deep steel wide-flange columns under cyclic loading

Just recently, valuable experimental data that characterized the hysteretic behavior of deep wideflange steel columns (i.e., column depth, d >16 inches) at full-scale became available. Such members are typically used in steel moment-resisting frames (MRFs) in North America. In order to expand the findings of the experimental program, an extensive parametric study is conducted using a validated continuum finite element (FE) modeling approach. The nonlinear behavior of more than 40 steel wide-flange cross-sections is investigated. Each steel column is subjected to a monotonic, a symmetric cyclic, and a collapse-consistent lateral loading protocol coupled with different levels of constant compressive axial load ratios. Based on the FE results, the cyclic deterioration in the column flexural strength and stiffness is evaluated. Accordingly, design recommendations are developed related to the seismic compactness criteria for highly ductile members such that column axial shortening can be reduced under design basis and lowprobability of occurrence earthquakes. The range of out-of-plane force demands is also evaluated for the lateral bracing design of columns in steel MRFs. In that respect, the current AISC provisions are evaluated. Empirical equations are developed for predicting the out-of-plane force demands and the plastic hinge length in steel wide flange columns.

Elkady, Ahmed
8e55de89-dff4-4f84-90ed-6af476e328a8
Lignos, Dimitrios G.
9f55ad65-7b12-4ad6-972c-5a967ec0497b
Elkady, Ahmed
8e55de89-dff4-4f84-90ed-6af476e328a8
Lignos, Dimitrios G.
9f55ad65-7b12-4ad6-972c-5a967ec0497b

Elkady, Ahmed and Lignos, Dimitrios G. (2017) Stability requirements of deep steel wide-flange columns under cyclic loading. Annual Stability Conference Structural Stability Research Council 2017, , San Antonio, United States. 21 - 24 Mar 2017.

Record type: Conference or Workshop Item (Paper)

Abstract

Just recently, valuable experimental data that characterized the hysteretic behavior of deep wideflange steel columns (i.e., column depth, d >16 inches) at full-scale became available. Such members are typically used in steel moment-resisting frames (MRFs) in North America. In order to expand the findings of the experimental program, an extensive parametric study is conducted using a validated continuum finite element (FE) modeling approach. The nonlinear behavior of more than 40 steel wide-flange cross-sections is investigated. Each steel column is subjected to a monotonic, a symmetric cyclic, and a collapse-consistent lateral loading protocol coupled with different levels of constant compressive axial load ratios. Based on the FE results, the cyclic deterioration in the column flexural strength and stiffness is evaluated. Accordingly, design recommendations are developed related to the seismic compactness criteria for highly ductile members such that column axial shortening can be reduced under design basis and lowprobability of occurrence earthquakes. The range of out-of-plane force demands is also evaluated for the lateral bracing design of columns in steel MRFs. In that respect, the current AISC provisions are evaluated. Empirical equations are developed for predicting the out-of-plane force demands and the plastic hinge length in steel wide flange columns.

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More information

Published date: 1 January 2017
Venue - Dates: Annual Stability Conference Structural Stability Research Council 2017, , San Antonio, United States, 2017-03-21 - 2017-03-24

Identifiers

Local EPrints ID: 433851
URI: http://eprints.soton.ac.uk/id/eprint/433851
PURE UUID: a9582c0b-b945-45c8-93f9-0dd44e2f9e75
ORCID for Ahmed Elkady: ORCID iD orcid.org/0000-0002-1214-6379

Catalogue record

Date deposited: 04 Sep 2019 16:30
Last modified: 09 Jan 2022 04:07

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Contributors

Author: Ahmed Elkady ORCID iD
Author: Dimitrios G. Lignos

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