Thermal imaging assessment of drystone retaining walls
Thermal imaging assessment of drystone retaining walls
Drystone retaining walls form an essential part of the infrastructure in hilly and mountainous regions around the world, by providing platforms for roads, buildings and for agricultural terraces. Research carried out in England and in France has led to a good understanding of their behaviour, but it is difficult to determine the details of the construction of individual walls without dismantling them – so it can be hard to tell if apparent defects and deformations are a threat to stability. Replacing every apparently defective or deformed wall would be a waste of resources, yet dismantling a wall would obviously be completely disruptive to its function. Invasive investigation, such as drilling, could easily cause damage to the wall structure and destabilise the wall. There is therefore a pressing need for non-intrusive methods of investigation that can reveal critical aspects of a wall’s construction. Thermal imaging can reveal important information about aspects of a wall’s construction that are critical to its stability. This paper presents case studies and numerical modelling that have contributed to the development of this technique, and demonstrate its potential.
111-120
Warren, Laura Anne
9e332824-1c1d-43ba-8aad-c96a60d1fd57
Briggs, Kevin Mark
8974f7ce-2757-4481-9dbc-07510b416de4
McCombie, Paul Francis
12f30716-5a63-4a97-8c45-a017f6b911c3
Warren, Laura Anne
9e332824-1c1d-43ba-8aad-c96a60d1fd57
Briggs, Kevin Mark
8974f7ce-2757-4481-9dbc-07510b416de4
McCombie, Paul Francis
12f30716-5a63-4a97-8c45-a017f6b911c3
Warren, Laura Anne, Briggs, Kevin Mark and McCombie, Paul Francis
(2016)
Thermal imaging assessment of drystone retaining walls.
Proceedings of the Institution of Civil Engineers: Forensic Engineering, 169 (3), .
(doi:10.1680/jfoen.16.00012).
Abstract
Drystone retaining walls form an essential part of the infrastructure in hilly and mountainous regions around the world, by providing platforms for roads, buildings and for agricultural terraces. Research carried out in England and in France has led to a good understanding of their behaviour, but it is difficult to determine the details of the construction of individual walls without dismantling them – so it can be hard to tell if apparent defects and deformations are a threat to stability. Replacing every apparently defective or deformed wall would be a waste of resources, yet dismantling a wall would obviously be completely disruptive to its function. Invasive investigation, such as drilling, could easily cause damage to the wall structure and destabilise the wall. There is therefore a pressing need for non-intrusive methods of investigation that can reveal critical aspects of a wall’s construction. Thermal imaging can reveal important information about aspects of a wall’s construction that are critical to its stability. This paper presents case studies and numerical modelling that have contributed to the development of this technique, and demonstrate its potential.
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Accepted/In Press date: 20 April 2016
e-pub ahead of print date: 15 August 2016
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Local EPrints ID: 492195
URI: http://eprints.soton.ac.uk/id/eprint/492195
PURE UUID: 88e431c7-8e89-411d-aeab-5ae5de642ace
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Date deposited: 19 Jul 2024 16:54
Last modified: 20 Jul 2024 01:43
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Author:
Laura Anne Warren
Author:
Kevin Mark Briggs
Author:
Paul Francis McCombie
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