Experimental and computational analysis of masonry subject to long duration blast loading
Experimental and computational analysis of masonry subject to long duration blast loading
Much research has been conducted towards conventional blast loading and its interaction with structures. Typically the positive phase duration, t+, of a conventional high
explosive blast falls in the region 10ms < t+ < 100ms. Long duration blast can be considered as an explosive event in which t+ >100ms. This type of blast load offers added complexity when dealing with its interaction with structures due to the high impulses, drag winds and associated dynamic pressures. As part of an extended in-depth research study to develop a set of predictive algorithms, this paper investigates the geometrical dependence of masonry on the breakage patterns and debris distribution when subject to long duration blast loads. Experimental trials were conducted using the Air Blast Tunnel at MoD Shoeburyness, a specialised facility for long duration blast, in which two masonry panels were tested. The trials were subsequently modelling using the Applied Element Method (AEM) with the computational and experimental results demonstrating good agreement. Using this computational method, a number of extra models were developed providing an extended set of results
offering insight into the failure modes of masonry panels and the subsequent debris distribution
Keys, R.
c79f59bb-d2f1-452e-b14e-198beb6db7e4
Clubley, S.K.
d3217801-61eb-480d-a6a7-5873b5f6f0fd
9 November 2015
Keys, R.
c79f59bb-d2f1-452e-b14e-198beb6db7e4
Clubley, S.K.
d3217801-61eb-480d-a6a7-5873b5f6f0fd
Keys, R. and Clubley, S.K.
(2015)
Experimental and computational analysis of masonry subject to long duration blast loading.
International Symposium on the Interaction of the Effects of Munitions with Structures ISIEMS 2015, Florida, United States.
09 - 13 Nov 2015.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Much research has been conducted towards conventional blast loading and its interaction with structures. Typically the positive phase duration, t+, of a conventional high
explosive blast falls in the region 10ms < t+ < 100ms. Long duration blast can be considered as an explosive event in which t+ >100ms. This type of blast load offers added complexity when dealing with its interaction with structures due to the high impulses, drag winds and associated dynamic pressures. As part of an extended in-depth research study to develop a set of predictive algorithms, this paper investigates the geometrical dependence of masonry on the breakage patterns and debris distribution when subject to long duration blast loads. Experimental trials were conducted using the Air Blast Tunnel at MoD Shoeburyness, a specialised facility for long duration blast, in which two masonry panels were tested. The trials were subsequently modelling using the Applied Element Method (AEM) with the computational and experimental results demonstrating good agreement. Using this computational method, a number of extra models were developed providing an extended set of results
offering insight into the failure modes of masonry panels and the subsequent debris distribution
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Published date: 9 November 2015
Venue - Dates:
International Symposium on the Interaction of the Effects of Munitions with Structures ISIEMS 2015, Florida, United States, 2015-11-09 - 2015-11-13
Organisations:
Infrastructure Group
Identifiers
Local EPrints ID: 370541
URI: http://eprints.soton.ac.uk/id/eprint/370541
PURE UUID: 30776885-2b9d-47cc-9caf-a69fdc900c5d
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Date deposited: 31 Oct 2014 09:57
Last modified: 11 Dec 2021 05:24
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Contributors
Author:
R. Keys
Author:
S.K. Clubley
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