Time resolved study of light emitted by detonation arrival at the surface of high explosives in various environments
Abstract
In search of a way to accurately measure time of arrival of detonation fronts, we have been using an electronic streak camera equipped with a light intensifier to record intensity-time histories of the light that is emitted when a detonation front emerges through the surface of high explosives in contact with various environments. Streak records at writing speeds up to 100 mm/microsec were obtained of detonations in air, argon, water and vacuum when the high explosive (HE) was either bare or covered with materials such as: aluminum silicofluoride (Al2(SiF6)3), PETN powder, polymethyl methacrylate (PMM), glass, aluminum foils, transparent tape, black ink, potassium chloride crystals, sodium chloride crystals and lithium fluoride crystals. The result of this study is that we believe that we can measure the time of arrival of a detonation front at a bare HE surface in air to within a few nanoseconds.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- March 1988
- Bibcode:
- 1988STIN...8920414B
- Keywords:
-
- Chemical Explosions;
- Detonation;
- Detonation Waves;
- Light Emission;
- Time;
- Wave Fronts;
- Argon;
- Emittance;
- Glass Coatings;
- Lithium Fluorides;
- Petn;
- Potassium Chlorides;
- Sodium Chlorides;
- Streak Cameras;
- Fluid Mechanics and Heat Transfer