INTERACTION BETWEEN A STEADY DETONATION WAVE IN NITROMETHANE AND GEOMETRICAL COMPLEX CONFINEMENT DEFECTS

Two copper cylinder expansion tests were carried out on nitromethane. They differ from the classical cylinder test in that the liner includes evenly-spaced protruding circular defects. The aim is to study how a detonation front propagating in the liquid explosive interacts with the confining materia...

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Hauptverfasser:	Crouzet, B, Soulard, L, Carion, N, Manczur, P
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creator	Crouzet, B Soulard, L Carion, N Manczur, P
description	Two copper cylinder expansion tests were carried out on nitromethane. They differ from the classical cylinder test in that the liner includes evenly-spaced protruding circular defects. The aim is to study how a detonation front propagating in the liquid explosive interacts with the confining material defects. The subsequent motion of the metal, accelerated by the expanding detonation products, is measured using a range of diagnostic techniques: electrical probes, a rapid framing camera, a glass block associated with a streak camera and velocity laser interferometers. The different experimental records have been examined in the light of previous classical cylinder test measurements, simple 2D theoretical shock polar analysis results and 2D numerical simulations.
doi_str_mv	10.1063/1.2833249
format	Conference Proceeding
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title	INTERACTION BETWEEN A STEADY DETONATION WAVE IN NITROMETHANE AND GEOMETRICAL COMPLEX CONFINEMENT DEFECTS
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