Explosively Accelerated Flyer Plate Impulse Technique Capability Status
Abstract not provided.
Publications
Gurney Analysis for High Shear Mixed Silver Acetylide-Silver Nitrate Explosive on Kapton Substrates
Abstract not provided.
Explosively Driven Flyer Plate Velocity Time Profiles Transformed to Internal Explosive Pressure
Abstract not provided.
Embedded Fiber Optic Sensors for Measuring Transient Detonation/Shock Behavior
Abstract not provided.
Improved Microstructure of Silver Acetylide-Silver Nitrate Explosive and Subsequent Effects to Detonation Performance
Abstract not provided.
Embedded fiber optic sensors for measurement of dynamic pressure events
Abstract not provided.
Embedded Fiber Optic Sensors for Measuring Transient Detonation/Shock Behavior;Time-of-Arrival Detection and Waveform Determination
The miniaturization of explosive components has driven the need for a corresponding miniaturization of the current diagnostic techniques available to measure the explosive phenomena. Laser interferometry and the use of spectrally coated optical windows have proven to be an essential interrogation technique to acquire particle velocity time history data in one- dimensional gas gun and relatively large-scale explosive experiments. A new diagnostic technique described herein allows for experimental measurement of apparent particle velocity time histories in microscale explosive configurations and can be applied to shocks/non-shocks in inert materials. The diagnostic, Embedded Fiber Optic Sensors (EFOS), has been tested in challenging microscopic experimental configurations that give confidence in the technique's ability to measure the apparent particle velocity time histories of an explosive with pressure outputs in the tenths of kilobars to several kilobars. Embedded Fiber Optic Sensors also allow for several measurements to be acquired in a single experiment because they are microscopic, thus reducing the number of experiments necessary. The future of EFOS technology will focus on further miniaturization, material selection appropriate for the operating pressure regime, and extensive hydrocode and optical analysis to transform apparent particle velocity time histories into true particle velocity time histories as well as the more meaningful pressure time histories.
SYNTHESIS MICROSTRUCTURE AND EXPLOSIVE PROPERTIES OF SPRAY-DEPOSITED SILVER ACETYLIDE-SILVER NITRATE COMPOSITE LIGHT INITIATED HIGH EXPLOSIVES
Abstract not provided.
Synthesis Microstructure and Explosive Properties of Spray-Deposited Silver Acetylide-Silver Nitrate Composite Light Initiated High Explosives
Abstract not provided.
9 Results