Mitigation of the blast load effects on a building structure using newly composite structural configurations

Received: 10 Dec 2020, Revised: 27 Dec 2020, Accepted: 14 Feb 2021, Available online: 29 Mar 2021, Version of Record: 29 Mar 2021

Ahmed K. Taha a, M.S. Zahran b, Zhengguo Gao a
a
School of Transportation Science and Engineering, Beihang University (Beijing University of Aeronautics and Astronautics), Beijing, 100191, PR China
b
Department of Civil Engineering, Military Technical College, Egypt

Abstract


In this study, a nonlinear three-dimensional hydrocode numerical simulation was carried out using AUTODYN-3D to investigate the effect of blasting of a high explosive material (TNT) against several configurations of the composite structure. Several numerical models were carried out to study the effect of varying the thickness of the walls and the effect of adding an air layer or aluminum foam layer inside two layers of concrete in mitigating the effect of blast waves on the structure walls. The results showed that increasing the thickness of walls has a good effect on mitigating the effect of blast waves. When a layer of air was added, the effect of blast waves was exaggerated, while when a layer of aluminum foam was added the blast wave effects were mitigated with a reasonable percentage.

Keywords
Concrete structures
Blast waves
Numerical simulation
TNT



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Conflict of interest


“Authors state no conflict of interest”


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This research received no external funding or grants


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