Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover

Numerical simulation of internal explosion in the concrete magazines has advantages over conventional field tests in terms of cost, safety and land availability. Adopting the well established simulation methodologies from the previous studies, this study aimed to further explore the soil cover effec...

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Main Author: Lin, Yongxiang.
Other Authors: Fan Sau Cheong
Format: Final Year Project
Language:English
Published: 2010
Subjects:
Online Access:http://hdl.handle.net/10356/39500
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-395002023-03-03T17:05:33Z Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover Lin, Yongxiang. Fan Sau Cheong School of Civil and Environmental Engineering Defence Science and Technology Agency Centre for Advanced Numerical Engineering Simulations DRNTU::Engineering::Civil engineering Numerical simulation of internal explosion in the concrete magazines has advantages over conventional field tests in terms of cost, safety and land availability. Adopting the well established simulation methodologies from the previous studies, this study aimed to further explore the soil cover effect in the box-shape Earth-Covered Magazine (ECM) under different TNT loading densities and different soil plasticity. With the focus on top wall and simplicity, a quarter model design with the two side walls fully constrained was adopted. Reinforcement was not included. Pairs of AGM and ECM (with low soil plasticity) were test under different loading densities, including 0.6kg/m3, 5.5 kg/m3 and 22.5 kg/m3. In addition, this study also included two more ECM cases (one for 5.5 kg/m3 and the other for 22.5 kg/m3) with high soil plasticity. Key parameters including pressure, impulse and resultant velocity were tracked to study the blast effect. Important conclusions drawn from the results were: 1) With low soil plasticity, the earth cover was effective in alleviating the debris launching velocity only under the 5.5 kg/m3 loading density; 2) With high soil plasticity, the earth cover however increased the blast effect and resulted in an even higher velocity in the ECM than the AGM. Bachelor of Engineering (Civil) 2010-05-27T07:10:27Z 2010-05-27T07:10:27Z 2010 2010 Final Year Project (FYP) http://hdl.handle.net/10356/39500 en Nanyang Technological University 53 p. application/pdf application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Civil engineering
spellingShingle DRNTU::Engineering::Civil engineering
Lin, Yongxiang.
Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
description Numerical simulation of internal explosion in the concrete magazines has advantages over conventional field tests in terms of cost, safety and land availability. Adopting the well established simulation methodologies from the previous studies, this study aimed to further explore the soil cover effect in the box-shape Earth-Covered Magazine (ECM) under different TNT loading densities and different soil plasticity. With the focus on top wall and simplicity, a quarter model design with the two side walls fully constrained was adopted. Reinforcement was not included. Pairs of AGM and ECM (with low soil plasticity) were test under different loading densities, including 0.6kg/m3, 5.5 kg/m3 and 22.5 kg/m3. In addition, this study also included two more ECM cases (one for 5.5 kg/m3 and the other for 22.5 kg/m3) with high soil plasticity. Key parameters including pressure, impulse and resultant velocity were tracked to study the blast effect. Important conclusions drawn from the results were: 1) With low soil plasticity, the earth cover was effective in alleviating the debris launching velocity only under the 5.5 kg/m3 loading density; 2) With high soil plasticity, the earth cover however increased the blast effect and resulted in an even higher velocity in the ECM than the AGM.
author2 Fan Sau Cheong
author_facet Fan Sau Cheong
Lin, Yongxiang.
format Final Year Project
author Lin, Yongxiang.
author_sort Lin, Yongxiang.
title Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
title_short Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
title_full Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
title_fullStr Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
title_full_unstemmed Numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
title_sort numerical modeling of explosion of a reinforced concrete magazine : the effect of earth cover
publishDate 2010
url http://hdl.handle.net/10356/39500
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