The synthesis of heat resistant explosives via Ullmann coupling

Hudson, P. N.

January 1995

No description available.

623.45

Pyrotechnics & explosives

Interphase modification in TATB filled polymer bonded explosives

Kinloch, Stephen Adam

January 1991

No description available.

623.45

Stability of high explosives

Mass spectrometry of pyrotechnic flames

Lovis, G. D.

January 1983

No description available.

623.45

Pyrotechnics & explosives

H.P.L.C.-fluorescence studies on some explosives

Cross, L. P.

January 1983

No description available.

623.45

Pyrotechnics & explosives

The application of quantitative differential thermal analysis to the study of pyrotechnic systems

Charsley, Edward Leonard

January 1989

No description available.

623.45

Pyrotechnics & explosives

Analysis and characterisation of nitroglycerine based explosives

Lewis, Robert James

January 1995

No description available.

623.45

Pyrotechnics & explosives

Properties of concrete subjected to explosively generated impact and impulse loading

Archer, Bernard

January 1986

The use of models to simulate full scale structural effects has long been attempted and various types of models have been developed. One type, the replica model, in which prototype materials are used was selected for this study. Much interest has been shown in the past on damage prediction based on extrapolation of the results from small explosive charge tests. In this study, scale model concrete ground slabs have been subjected to high rates of loading using explosively propelled copper and aluminium projectiles impacting on the concrete to air surface and explosive devices buried in the soil beneath the concrete slab. The copper or aluminium projectile was produced from a truncated cone of metal in direct contact with a shaped charge of RDX/TNT explosive. The subsurface charge was uncased PE4 plastic explosive inserted into a hole through the slab and into the soil. In many tests the hole was produced by the metal jet impact without any modification. Other scaled concrete targets have also been tested using explosively propelled projectiles. Transient results from the tests have been collected using high speed photography, electrical resistance strain gauges, crack velocity detection devices and a projectile velocity measurement system. Other measurements of post test damage have utilised stereoscopic photography, coloured particles of soil in the foundations of the concrete slabs and a scanning electron microscope. Concretes of various strengths and densities have been used but all conformed to a scaled down specification for pavement quality concrete. Explosive charges were similarly scaled in size from prototype devices. Some additional experimental work has been carried out to obtain fundamental data on the explosive charges and on 'perspex', metal and concrete blocks for calculation and comparison purposes. Comparisons are also made with work of a related nature undertaken at larger scales.

624.1

Demolition; Explosives

A system for analyzing and characterizing environmental chemicals and explosives and a propoasal for its miniaturization

Sonnen, Steven J.

30 June 1993

Electron capture negative ion mass spectroscopy (ECNIMS) has been performed on environmental chemicals and explosives. A trochoidal electron monochromator interfaced to a gas chromatograph and a quadrupole mass spectrometer allows compounds to be studied by this method. The method employed here differs from standard ECNIMS in that no reagent gas is used to moderate electron energies. Several explosives were analyzed using this system, as were chlorinated compounds obtained from the lipid fraction of Arctic trout muscle. A miniaturized version of the system would be advantageous as a portable apparatus for field use. Among the required modifications would be the installation of cylindrical permanent magnets to replace the Helmholtz coils used for generating the magnetic field for the monochromator. Tests suggest that the trochoidal electron monochromator component of the system can be reduced in volume by a factor of 200 without an appreciable loss of energy resolution. / Graduation date: 1994

Explosives -- Testing

Terrorism -- Prevention

Development of a laboratory-scale test facility to investigate armor solutions against buried explosive threats

García, Felipe.

January 2009

Thesis (M.S. in Applied Physics)--Naval Postgraduate School, December 2009. / Thesis Advisor(s): Sinibaldi, Jose O. ; Hixson, Robert S. "December 2009." Description based on title screen as viewed on February 1, 2010. Author(s) subject terms:Flyer plate, nitromethane, blast wave, loading profile. Includes bibliographical references (p. 117). Also available in print.

Armor Explosives Detonation waves

Examination of the use of exact versus approximate phase weights on the performance of a synthetic aperture sonar system /

Boland, Matthew R.

January 2003

Thesis (M.S. in Electrical Engineering)--Naval Postgraduate School, March 2003. / Thesis advisor(s): Lawrence J. Ziomek, Ziaoping Yun. Includes bibliographical references (p. 63). Also available online.

Sonar. Mines (Military explosives)