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Experimental investigation of nonlinear cyclic flexural behaviour of hollow and concrete-filled aluminium beams

Experimental investigation of nonlinear cyclic flexural behaviour of hollow and concrete-filled aluminium beams
Experimental investigation of nonlinear cyclic flexural behaviour of hollow and concrete-filled aluminium beams
This study presents an experimental programme to characterise, for the first time, the nonlinear cyclic flexural behaviour of hollow and concrete-filled aluminium tubular beams at large rotation levels up to 0.08 rad. Particularly, four different tubular cross-sections, fabricated from two grades of structural aluminium alloys –6082-T6 and 6063-T6– with various cross-sectional slenderness were tested with and without concrete infill to establish their hysteretic flexural behaviour. All tested specimens showed hysteretic loops without significant gradual strength and stiffness degradation under cyclic loading. The influence of aluminium alloy type, cross-sectional slenderness and presence of concrete infill on the plastic hinge deformation, ultimate strength, failure mode, secant stiffness degradation and energy dissipation capacity is thoroughly investigated. Analysis of the in-plane strain measurements from Digital Image Correlation suggest that under large cyclic loads the examined members can develop an average plastic hinge length equal to 1.5 times the largest cross-sectional dimension measured from the fixed end of the members. Overall, the experimental results demonstrate that hollow and concrete-filled aluminium beam members can sustain large deformations without any structural damage under large rotation levels.
0733-9445
Georgantzia, Evangelia
915a67f2-6020-4bd3-919e-f6df11f4a031
Pichowski,, Joshua
87cf9b58-313f-4c1a-9eda-3ccef6b96d6c
Aminulai, Hammed O.
2f39bbad-cf80-4fe1-86f7-eed15def6242
Crump, Duncan
5fa2d636-89bc-4005-a948-32554ef3d951
Kashani, Mohammad M.
d1074b3a-5853-4eb5-a4ef-7d741b1c025d
Georgantzia, Evangelia
915a67f2-6020-4bd3-919e-f6df11f4a031
Pichowski,, Joshua
87cf9b58-313f-4c1a-9eda-3ccef6b96d6c
Aminulai, Hammed O.
2f39bbad-cf80-4fe1-86f7-eed15def6242
Crump, Duncan
5fa2d636-89bc-4005-a948-32554ef3d951
Kashani, Mohammad M.
d1074b3a-5853-4eb5-a4ef-7d741b1c025d

Georgantzia, Evangelia, Pichowski,, Joshua, Aminulai, Hammed O., Crump, Duncan and Kashani, Mohammad M. (2025) Experimental investigation of nonlinear cyclic flexural behaviour of hollow and concrete-filled aluminium beams. Journal of Structural Engineering (United States).

Record type: Article

Abstract

This study presents an experimental programme to characterise, for the first time, the nonlinear cyclic flexural behaviour of hollow and concrete-filled aluminium tubular beams at large rotation levels up to 0.08 rad. Particularly, four different tubular cross-sections, fabricated from two grades of structural aluminium alloys –6082-T6 and 6063-T6– with various cross-sectional slenderness were tested with and without concrete infill to establish their hysteretic flexural behaviour. All tested specimens showed hysteretic loops without significant gradual strength and stiffness degradation under cyclic loading. The influence of aluminium alloy type, cross-sectional slenderness and presence of concrete infill on the plastic hinge deformation, ultimate strength, failure mode, secant stiffness degradation and energy dissipation capacity is thoroughly investigated. Analysis of the in-plane strain measurements from Digital Image Correlation suggest that under large cyclic loads the examined members can develop an average plastic hinge length equal to 1.5 times the largest cross-sectional dimension measured from the fixed end of the members. Overall, the experimental results demonstrate that hollow and concrete-filled aluminium beam members can sustain large deformations without any structural damage under large rotation levels.

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Georgantzia_ET_AL_ACCEPTED_MANUSCRIPT - Accepted Manuscript
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More information

Accepted/In Press date: 19 May 2025
Published date: 1 October 2025

Identifiers

Local EPrints ID: 504002
URI: http://eprints.soton.ac.uk/id/eprint/504002
ISSN: 0733-9445
PURE UUID: c5ee5221-d865-41c0-a034-efe3ef9e80d4
ORCID for Evangelia Georgantzia: ORCID iD orcid.org/0000-0001-9140-8236
ORCID for Hammed O. Aminulai: ORCID iD orcid.org/0000-0001-6185-5000
ORCID for Mohammad M. Kashani: ORCID iD orcid.org/0000-0003-0008-0007

Catalogue record

Date deposited: 21 Aug 2025 06:44
Last modified: 16 Oct 2025 04:01

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Contributors

Author: Evangelia Georgantzia ORCID iD
Author: Joshua Pichowski,
Author: Hammed O. Aminulai ORCID iD
Author: Duncan Crump
Author: Mohammad M. Kashani ORCID iD

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