Composite steel beam database for seismic design and performance assessment of composite-steel moment-resisting frame systems
Composite steel beam database for seismic design and performance assessment of composite-steel moment-resisting frame systems
This paper discusses the development of a publicly available database of composite steel beam-to-column connections under cyclic loading. The database is utilized to develop recommendations for the seismic design and nonlinear performance assessment of steel and composite-steel moment-resisting frames (MRFs). In particular, the sagging/hogging plastic flexural resistance as well as the effective slab width are assessed through a comparison of the European, American and Japanese design provisions. The database is also used to quantify the plastic rotation capacity of composite steel beams under sagging/hogging bending. It is found that the Eurocode 8-Part 3 provisions overestimate the plastic rotation capacities of composite beams by 50% regardless of their web slenderness ratio. Empirical relationships are developed to predict the plastic rotation capacity of composite steel beams as a function of their geometric and material properties. These relationships can facilitate the seismic performance assessment of new and existing steel and composite-steel MRFs through nonlinear static analysis. The collected data underscores that the beam-to-column web panel zone in composite steel beam-to-column connections experience higher shear demands than their non-composite counterparts. A relative panel zone-to-beam resistance ratio is proposed that allows for controlled panel zone inelastic deformation of up to 10 times the panel zone’s shear yield distortion angle. Notably, when this criterion was imposed, there was no fracture in all the examined beam-to-column connections.
Composite floors, Composite steel beam database, Panel zone shear resistance, Plastic rotation capacity, Seismic performance assessment
3015-3039
El Jisr, Hammad
63bbff5a-a762-4185-baf1-8e548141c955
Elkady, Ahmed
8e55de89-dff4-4f84-90ed-6af476e328a8
Lignos, Dimitrios G.
9f55ad65-7b12-4ad6-972c-5a967ec0497b
15 June 2019
El Jisr, Hammad
63bbff5a-a762-4185-baf1-8e548141c955
Elkady, Ahmed
8e55de89-dff4-4f84-90ed-6af476e328a8
Lignos, Dimitrios G.
9f55ad65-7b12-4ad6-972c-5a967ec0497b
El Jisr, Hammad, Elkady, Ahmed and Lignos, Dimitrios G.
(2019)
Composite steel beam database for seismic design and performance assessment of composite-steel moment-resisting frame systems.
Bulletin of Earthquake Engineering, 17 (6), .
(doi:10.1007/s10518-019-00564-w).
Abstract
This paper discusses the development of a publicly available database of composite steel beam-to-column connections under cyclic loading. The database is utilized to develop recommendations for the seismic design and nonlinear performance assessment of steel and composite-steel moment-resisting frames (MRFs). In particular, the sagging/hogging plastic flexural resistance as well as the effective slab width are assessed through a comparison of the European, American and Japanese design provisions. The database is also used to quantify the plastic rotation capacity of composite steel beams under sagging/hogging bending. It is found that the Eurocode 8-Part 3 provisions overestimate the plastic rotation capacities of composite beams by 50% regardless of their web slenderness ratio. Empirical relationships are developed to predict the plastic rotation capacity of composite steel beams as a function of their geometric and material properties. These relationships can facilitate the seismic performance assessment of new and existing steel and composite-steel MRFs through nonlinear static analysis. The collected data underscores that the beam-to-column web panel zone in composite steel beam-to-column connections experience higher shear demands than their non-composite counterparts. A relative panel zone-to-beam resistance ratio is proposed that allows for controlled panel zone inelastic deformation of up to 10 times the panel zone’s shear yield distortion angle. Notably, when this criterion was imposed, there was no fracture in all the examined beam-to-column connections.
Text
2019 ElJisr et al Accepted Manuscript
- Accepted Manuscript
More information
Accepted/In Press date: 21 January 2019
e-pub ahead of print date: 5 February 2019
Published date: 15 June 2019
Keywords:
Composite floors, Composite steel beam database, Panel zone shear resistance, Plastic rotation capacity, Seismic performance assessment
Identifiers
Local EPrints ID: 433895
URI: http://eprints.soton.ac.uk/id/eprint/433895
ISSN: 1570-761X
PURE UUID: 8b25dffa-6f14-46ca-add2-d6efcb1b07c1
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Date deposited: 05 Sep 2019 16:30
Last modified: 16 Mar 2024 08:09
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Author:
Hammad El Jisr
Author:
Dimitrios G. Lignos
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