Fire resistance of ultra-high performance concrete columns subjected to axial and eccentric loading
Fire resistance of ultra-high performance concrete columns subjected to axial and eccentric loading
This paper experimentally investigated fire resistance of UHPC and HPC columns under the ISO 834 fire curve. Effects of concrete strength, inclusion of fibers, and load eccentricity were investigated. Spalling behavior, failure mode, temperature distribution, axial deformation, mid-height column deflection, and fire resistance were measured and analyzed. From the results, columns with plain UHPC matrix were highly susceptible to explosive spalling due to its dense microstructure and low permeability, which led to premature failure and low fire resistance. Although the addition of 3 kg/m3 of PP fibers was higher than the dosage recommended in Eurocode 2, it did not eliminate spalling for the axially-loaded UHPC columns. With the addition of hybrid PP and steel fibers, the UHPC columns only showed marginal spalling under axial loading, which significantly improved the fire resistance. However, load eccentricity promotes explosive spalling of UHPC columns especially on the compression side of bending, which reduced the fire resistance.
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Du, Panwei
5f5c63e5-e112-44b7-adb3-926e7944b9d7
Tan, Kang Hai
d6b202e6-50ba-4236-961a-c9be0cb46e5c
27 September 2021
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Du, Panwei
5f5c63e5-e112-44b7-adb3-926e7944b9d7
Tan, Kang Hai
d6b202e6-50ba-4236-961a-c9be0cb46e5c
Li, Ye, Du, Panwei and Tan, Kang Hai
(2021)
Fire resistance of ultra-high performance concrete columns subjected to axial and eccentric loading.
Engineering Structures, 248, [113158].
(doi:10.1016/j.engstruct.2021.113158).
Abstract
This paper experimentally investigated fire resistance of UHPC and HPC columns under the ISO 834 fire curve. Effects of concrete strength, inclusion of fibers, and load eccentricity were investigated. Spalling behavior, failure mode, temperature distribution, axial deformation, mid-height column deflection, and fire resistance were measured and analyzed. From the results, columns with plain UHPC matrix were highly susceptible to explosive spalling due to its dense microstructure and low permeability, which led to premature failure and low fire resistance. Although the addition of 3 kg/m3 of PP fibers was higher than the dosage recommended in Eurocode 2, it did not eliminate spalling for the axially-loaded UHPC columns. With the addition of hybrid PP and steel fibers, the UHPC columns only showed marginal spalling under axial loading, which significantly improved the fire resistance. However, load eccentricity promotes explosive spalling of UHPC columns especially on the compression side of bending, which reduced the fire resistance.
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Accepted/In Press date: 5 September 2021
e-pub ahead of print date: 27 September 2021
Published date: 27 September 2021
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Local EPrints ID: 497450
URI: http://eprints.soton.ac.uk/id/eprint/497450
ISSN: 0141-0296
PURE UUID: ac89269d-ec16-449d-8ec8-2e6c81b6df2d
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Date deposited: 23 Jan 2025 17:30
Last modified: 24 Jan 2025 03:15
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Author:
Ye Li
Author:
Panwei Du
Author:
Kang Hai Tan
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