Add to ORKGA system has been developed to observe the growth to detonation of high explosives using fiber optics to monitor light emission at the detonation front. The corresponding voltage waveform is digitized and fed to a computer for peak location and data analysis. Measurements close to the initiation point reveal an acceleration zone in which the velocity for growth to final detonation occurs. The characteristics of this acceleration region are related to the physical properties and sensitivity of the test explosive
The analysis of many high explosives (HE) involves the use of rotating-mirror cameras and high speed...
In order to fully calibrate hydrocodes and dynamic chemistry burn models, initiation and detonation ...
Throughout this project, a number of fibre optic systems have been developed in order to measure det...
Conference on Fiber Optic Sensors and Applications XII, Baltimore, MD, APR 22-23, 2015International ...
The experiments described here were undertaken with the purpose of measuring the length of the deton...
International audienceDynamic measurements of shock and detonation velocities are performed using lo...
In order to fully calibrate hydrocodes and dynamic chemistry burn models, initiation models and deto...
The reaction rate of an explosive – also called detonation velocity – is the easiest parameter to me...
Conference of 5th European Workshop on Optical Fibre Sensors, EWOFS 2013 ; Conference Date: 19 May 2...
A reliable, simple fast-rise-time diagnostic has been developed for measuring the breakout time of t...
Fiber Optic sensors are found to be very suitable for explosion and shock wave measurements because ...
Classical physics of detonation assumes the basic configuration of Chapman-Jouguet mechanisms with a...
Velocity of Detonation (VoD) is an important measured characteristic parameter of explosive material...
Detonation velocity is an important parameter for explosive, and it is crucial for many fields such ...
Velocity of Detonation (VoD) is an important measured characteristic parameter of explosive material...
The analysis of many high explosives (HE) involves the use of rotating-mirror cameras and high speed...
In order to fully calibrate hydrocodes and dynamic chemistry burn models, initiation and detonation ...
Throughout this project, a number of fibre optic systems have been developed in order to measure det...
Conference on Fiber Optic Sensors and Applications XII, Baltimore, MD, APR 22-23, 2015International ...
The experiments described here were undertaken with the purpose of measuring the length of the deton...
International audienceDynamic measurements of shock and detonation velocities are performed using lo...
In order to fully calibrate hydrocodes and dynamic chemistry burn models, initiation models and deto...
The reaction rate of an explosive – also called detonation velocity – is the easiest parameter to me...
Conference of 5th European Workshop on Optical Fibre Sensors, EWOFS 2013 ; Conference Date: 19 May 2...
A reliable, simple fast-rise-time diagnostic has been developed for measuring the breakout time of t...
Fiber Optic sensors are found to be very suitable for explosion and shock wave measurements because ...
Classical physics of detonation assumes the basic configuration of Chapman-Jouguet mechanisms with a...
Velocity of Detonation (VoD) is an important measured characteristic parameter of explosive material...
Detonation velocity is an important parameter for explosive, and it is crucial for many fields such ...
Velocity of Detonation (VoD) is an important measured characteristic parameter of explosive material...
The analysis of many high explosives (HE) involves the use of rotating-mirror cameras and high speed...
In order to fully calibrate hydrocodes and dynamic chemistry burn models, initiation and detonation ...
Throughout this project, a number of fibre optic systems have been developed in order to measure det...