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Challenges and perspectives for integral bridges in the UK: PLEXUS small-scale experiments

Challenges and perspectives for integral bridges in the UK: PLEXUS small-scale experiments
Challenges and perspectives for integral bridges in the UK: PLEXUS small-scale experiments
This study focuses on the investigation of the factors that have limited, so far, the development of a consistent design and assessment approach for integral bridges (IBs). This paper presents a review of previous research and current design practices for IBs, followed by an overview of monitoring studies in the laboratory and in the field. As part of the UK Collaboratorium for Research on Infrastructure and Cities–Priming Laboratory EXperiments on Infrastructure and Urban Systems experimental campaign, a small-scale 1 g physical experiment is described. The test aimed to simulate the soil–structure interaction arising from seasonal expansion and contraction of the bridge deck and assess the performance of different monitoring techniques. Pressure cells were used to measure the lateral stresses behind the abutment wall, particle image velocimetry was employed to monitor the soil behaviour behind the abutment and linear variable differential transformers were used to monitor the backfill surface movements. By combining the data from these instruments, a preliminary assessment of the soil–structure interaction behaviour of the idealised integral abutment under seasonal thermal loading has been obtained. These monitoring methods and the associated understanding of IB behaviour gained from the tests provide definitive evidence for the development of monitoring systems for larger-scale physical tests and field monitoring systems for IBs.
bridges, earth pressure, laboratory tests, monitoring, settlement, soil-structure interaction/, thermal effects
2397-8759
27-43
Luo, Sha
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De Luca, Flavia
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De Risi, Raffaele
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Le Pen, Louis
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Watson, Geoff
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Milne, David
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Chapman, David
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Sextos, Anastasios
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Cassidy, Nigel
a31ff4d2-7548-41fa-9e33-659cba427882
Jefferson, Ian
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Metje, Nicole
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Smethurst, Joel
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Richards, David
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Mylonakis, George
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Taylor, Colin A.
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Powrie, William
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Rogers, Christopher D. F.
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Luo, Sha
60fce32d-9fac-45c0-8da7-05ef349fd0e8
De Luca, Flavia
64d67709-718c-453f-9b45-a109e1bbd805
De Risi, Raffaele
50495072-1704-4553-a6f9-7ab6aff8747d
Le Pen, Louis
4a38e256-d113-4bba-b0d4-32d41995928a
Watson, Geoff
a7b86a0a-9a2c-44d2-99ed-a6c02b2a356d
Milne, David
6b321a45-c19a-4243-b562-517a69e5affc
Chapman, David
da39b2a6-4ecf-4955-a8fb-dd0e1526fc40
Sextos, Anastasios
b97ee386-00d0-4aa5-b0e3-6f2a9a7a730d
Cassidy, Nigel
a31ff4d2-7548-41fa-9e33-659cba427882
Jefferson, Ian
72b690fe-846b-4015-ba5f-311c6e46d763
Metje, Nicole
de17d374-f685-4543-9d93-5317766d585a
Smethurst, Joel
8f30880b-af07-4cc5-a0fe-a73f3dc30ab5
Richards, David
a58ea81e-443d-4dab-8d97-55d76a43d57e
Mylonakis, George
8aa37314-d7c9-4962-bcc3-9a0ce1c4537b
Taylor, Colin A.
abe67edc-d1fe-440a-b52a-c51c661892a4
Powrie, William
600c3f02-00f8-4486-ae4b-b4fc8ec77c3c
Rogers, Christopher D. F.
50727a66-2c94-4a84-9983-716859cfbfe5

Luo, Sha, De Luca, Flavia, De Risi, Raffaele, Le Pen, Louis, Watson, Geoff, Milne, David, Chapman, David, Sextos, Anastasios, Cassidy, Nigel, Jefferson, Ian, Metje, Nicole, Smethurst, Joel, Richards, David, Mylonakis, George, Taylor, Colin A., Powrie, William and Rogers, Christopher D. F. (2022) Challenges and perspectives for integral bridges in the UK: PLEXUS small-scale experiments. Smart Infrastructure and Construction, 175 (1), 27-43, [2100020]. (doi:10.1680/jsmic.21.00020).

Record type: Article

Abstract

This study focuses on the investigation of the factors that have limited, so far, the development of a consistent design and assessment approach for integral bridges (IBs). This paper presents a review of previous research and current design practices for IBs, followed by an overview of monitoring studies in the laboratory and in the field. As part of the UK Collaboratorium for Research on Infrastructure and Cities–Priming Laboratory EXperiments on Infrastructure and Urban Systems experimental campaign, a small-scale 1 g physical experiment is described. The test aimed to simulate the soil–structure interaction arising from seasonal expansion and contraction of the bridge deck and assess the performance of different monitoring techniques. Pressure cells were used to measure the lateral stresses behind the abutment wall, particle image velocimetry was employed to monitor the soil behaviour behind the abutment and linear variable differential transformers were used to monitor the backfill surface movements. By combining the data from these instruments, a preliminary assessment of the soil–structure interaction behaviour of the idealised integral abutment under seasonal thermal loading has been obtained. These monitoring methods and the associated understanding of IB behaviour gained from the tests provide definitive evidence for the development of monitoring systems for larger-scale physical tests and field monitoring systems for IBs.

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ICE_SIC_Luo_et_al_Author_accepted - Accepted Manuscript
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Accepted/In Press date: 15 February 2022
e-pub ahead of print date: 28 March 2022
Published date: 28 March 2022
Keywords: bridges, earth pressure, laboratory tests, monitoring, settlement, soil-structure interaction/, thermal effects

Identifiers

Local EPrints ID: 456282
URI: http://eprints.soton.ac.uk/id/eprint/456282
ISSN: 2397-8759
PURE UUID: 5c39f256-61a9-4133-bcae-fb3a206e3168
ORCID for Louis Le Pen: ORCID iD orcid.org/0000-0002-4362-3895
ORCID for Geoff Watson: ORCID iD orcid.org/0000-0003-3074-5196
ORCID for David Milne: ORCID iD orcid.org/0000-0001-6702-3918
ORCID for Joel Smethurst: ORCID iD orcid.org/0000-0001-8175-985X
ORCID for William Powrie: ORCID iD orcid.org/0000-0002-2271-0826

Catalogue record

Date deposited: 27 Apr 2022 01:05
Last modified: 12 Aug 2024 01:36

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Contributors

Author: Sha Luo
Author: Flavia De Luca
Author: Raffaele De Risi
Author: Louis Le Pen ORCID iD
Author: Geoff Watson ORCID iD
Author: David Milne ORCID iD
Author: David Chapman
Author: Anastasios Sextos
Author: Nigel Cassidy
Author: Ian Jefferson
Author: Nicole Metje
Author: Joel Smethurst ORCID iD
Author: David Richards
Author: George Mylonakis
Author: Colin A. Taylor
Author: William Powrie ORCID iD
Author: Christopher D. F. Rogers

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