Open AccessExpansion into vacuum of a shocked tungsten carbide-epoxy mixture.
Author(s) -
William D. Reinhart,
Tracy Vogler,
Christopher L. Alexander
Publication year - 2009
Language(s) - English
Resource type - Reports
DOI - 10.2172/983671
Subject(s) - epoxy , tungsten carbide , tungsten , materials science , carbide , vaporization , shock (circulatory) , phase (matter) , composite material , silicon carbide , metallurgy , physics , thermodynamics , medicine , quantum mechanics
The behavior of a shocked tungsten carbide / epoxy mixture as it expands into a vacuum has been studied through a combination of experiments and simulations. X-ray radiography of the expanding material as well as the velocity measured for a stood-off witness late are used to understand the physics of the problem. The initial shock causes vaporization of the epoxy matrix, leading to a multi-phase flow situation as the epoxy expands rapidly at around 8 km/s followed by the WC particles moving around 3 km/s. There are also small amounts of WC moving at higher velocities, apparently due to jetting in the sample. These experiments provide important data about the multi-phase flow characteristics of this material.
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