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Field test and probabilistic analysis of irregular steel debris casualty risks from a person-borne improvised explosive device

Piotr W. Sielicki, Mark G. Stewart, Tomasz Gajewski, Michał Malendowski, Piotr Peksa, Hasan Al-Rifaie, Robert Studziński, Wojciech Sumelka

2020Defence Technology24 citationsDOIOpen Access PDF

Abstract

Person-borne improvised explosive devices (PBIEDs) are often used in terrorist attacks in Western countries. This study aims to predict the trajectories of PBIED fragments and the subsequent safety risks for people exposed to this hazard. An explosive field test with a typical PBIED composed of a plastic explosive charge and steel nut enhancements was performed to record initial fragment behaviour, including positions, velocity, and trajectory angles. These data were used to predict the full trajectory of PBIED fragments using a probabilistic analysis. In the probabilistic analyses a probability of fatality or serious injury was computed. Based on the results presented, many practical conclusions can be drawn, for instance, regarding safe evacuation distances if a person were exposed to a suspected PBIED.

Topics & Concepts

Explosive materialTrajectoryProbabilistic logicHazardDebrisForensic engineeringComputer securityEngineeringComputer scienceMeteorologyGeographyArtificial intelligencePhysicsChemistryArchaeologyOrganic chemistryAstronomyStructural Response to Dynamic LoadsCombustion and Detonation ProcessesDisaster Response and Management
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