Explosive Laboratory Setup for Cylindrical Compression
S. V. Dudin, V. A. Sosikov, S. I. Torunov
Institute of Problems of Chemical Physics, Russian Academy of Sciences, Chernogolovka, 142432 Russia
Keywords: детонация, ударные волны, взрывчатое вещество, цилиндрическое сжатие, высокоскоростная съемка, гидродинамическая неустойчивость, detonation, shock waves, explosive, cylindrical compression, high-speed shooting, hydrodynamic instability
Abstract
One method of pulse pressure loading of material or plasma is axisymmetric compression using a convergent cylindrical detonation wave. Such a wave is often formed by multipoint initiation and has a number of specific features that may affect the properties of the objects under study. To solve specific problems, it is proposed to use an explosive laboratory setup based on a converging cylindrical detonation wave with 12-48 initiation points. The TNT equivalent of the charge is less than 1 kg. The main method of research is process visualization using a domestic high-speed Nanogeit camera with a nanosecond time resolution. The structure and velocity of the converging detonation wave along the radius were determined. It is shown that for a charge of limited thickness, the curvature of the detonation wave front for various explosives depends only on the distance to the initiation point.
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