Structural response of aluminium alloy concrete filled tubular columns
Structural response of aluminium alloy concrete filled tubular columns
There is an increasing trend of using structural aluminium within the construction industry, due to its superior mechanical properties, such as high strength-to-weight ratio and high resistance to corrosion. The use of aluminium combined with concrete can be advantageous in terms of the resultant structural capacity. Currently, the design standards for the structural use of aluminium are substantially conservative and less exhaustive, which limits the full exploitation of aluminium as a structural material. This paper aims at developing more reliable structural design specifications based on experimental testing of aluminium-concrete composite columns. A series of specimens comprising concrete-filled aluminium hollow sections were experimentally investigated. Square hollow sections and rectangular hollow sections with different aspect ratios were considered. The hollow sections employed 6082-T6 aluminium alloy and were filled with concrete of C30 grade. The specimens were subjected to gradually increasing axial compressive loading until their failure. The behaviour of the specimens was observed through continuous monitoring and recording of the strain and displacement through instrumentation mounted on the specimens at critical locations. The experimentally obtained load capacities were compared to those predicted by European design specifications. Conclusions with regards to the structural efficiency of concrete-filled aluminium alloy columns are drawn and design recommendations in line with the observed structural response are made.
614-620
Georgantzia, Evangelia
915a67f2-6020-4bd3-919e-f6df11f4a031
Ali, Shafayat Bin
f88ff5ff-7c22-475d-8f3e-7549cab654c0
Gkantou, Michaela
e91cc83a-e415-44f2-a616-b88e41049fdf
Kamaris, George S.
99dc43b0-0a43-4706-8f45-c28bbe0ce99b
Kansara, Kunal D.
23eb9a5c-5cc0-4c92-a79a-2bbf2bce99d5
Atherton, William
77b6872a-505d-478f-be1c-7393833823f2
1 September 2021
Georgantzia, Evangelia
915a67f2-6020-4bd3-919e-f6df11f4a031
Ali, Shafayat Bin
f88ff5ff-7c22-475d-8f3e-7549cab654c0
Gkantou, Michaela
e91cc83a-e415-44f2-a616-b88e41049fdf
Kamaris, George S.
99dc43b0-0a43-4706-8f45-c28bbe0ce99b
Kansara, Kunal D.
23eb9a5c-5cc0-4c92-a79a-2bbf2bce99d5
Atherton, William
77b6872a-505d-478f-be1c-7393833823f2
Georgantzia, Evangelia, Ali, Shafayat Bin and Gkantou, Michaela
,
et al.
(2021)
Structural response of aluminium alloy concrete filled tubular columns.
ce/papers: the online collection for conference papers in civil engineering, 4 (2-4), .
(doi:10.1002/cepa.1339).
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Abstract
There is an increasing trend of using structural aluminium within the construction industry, due to its superior mechanical properties, such as high strength-to-weight ratio and high resistance to corrosion. The use of aluminium combined with concrete can be advantageous in terms of the resultant structural capacity. Currently, the design standards for the structural use of aluminium are substantially conservative and less exhaustive, which limits the full exploitation of aluminium as a structural material. This paper aims at developing more reliable structural design specifications based on experimental testing of aluminium-concrete composite columns. A series of specimens comprising concrete-filled aluminium hollow sections were experimentally investigated. Square hollow sections and rectangular hollow sections with different aspect ratios were considered. The hollow sections employed 6082-T6 aluminium alloy and were filled with concrete of C30 grade. The specimens were subjected to gradually increasing axial compressive loading until their failure. The behaviour of the specimens was observed through continuous monitoring and recording of the strain and displacement through instrumentation mounted on the specimens at critical locations. The experimentally obtained load capacities were compared to those predicted by European design specifications. Conclusions with regards to the structural efficiency of concrete-filled aluminium alloy columns are drawn and design recommendations in line with the observed structural response are made.
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Published date: 1 September 2021
Additional Information:
Special Issue: EUROSTEEL 2021 Sheffield — Steel's coming home
Venue - Dates:
The 9th European conference on Steel & Composite Structures: Eurosteel 2020, University of Sheffield, Sheffield, United Kingdom, 2020-09-09 - 2020-09-11
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Local EPrints ID: 476491
URI: http://eprints.soton.ac.uk/id/eprint/476491
ISSN: 2509-7075
PURE UUID: d728bd3d-413d-4b5b-b1da-57ea920abc79
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Date deposited: 03 May 2023 17:58
Last modified: 17 Mar 2024 04:15
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Contributors
Author:
Evangelia Georgantzia
Author:
Shafayat Bin Ali
Author:
Michaela Gkantou
Author:
George S. Kamaris
Author:
Kunal D. Kansara
Author:
William Atherton
Corporate Author: et al.
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