Materials energetic

As discussed in Chapter 3 (Section 3.3), the reactivity of metal hydrazine derivatives varies from detonation to deflagration depending upon the nature of the anion (oxidizing or reducing) and cation (transition or 

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Hare D E, Franken J and DIott D D 1995 A new method for studying picosecond dynamics of shocked solids application to crystalline energetic materials Chem. Phys. Lett. 244 224... 

Chemistry of Energetic Materials (ed. with Squire), Academic Press,... 

M. E. Lackey, Utilisation of Energetic Materials in an Industrial Combustor, AMXTHE-TE-R 85003, U.S. Army Toxic and Ha2ardous Materials Agency, Edgewood, Md.,June 1985. 

Milton Finger, New Directions in Energetic Materials Kesearch, LLL, Livermore, Calif., Mar. 1981. 

Explosives. Explosives can be detected usiag either radiation- or vapor-based detection. The aim of both methods is to respond specifically to the properties of the energetic material that distinguish it from harmless material of similar composition. A summary of techniques used is given ia Table 7. These techniques are useful for detecting organic as well as inorganic explosives (see Explosives and propellants). 

N. N. Makhova, T. S. Pivina, V. P. Lebedev, T. S. Konkova, and Yu. N. Matyushin, in Proc. 30th International Annual ICT-Conference, Energetic Materials, June 29-July 2, 1999, Karlsruhe, FRG, 57/ 1-11. 

Squire, D. R. (1991). Chemistiy of Energetic Materials. San Diego, CA Academic Press. 

Drs J. Roth, J. Brown, A.P. Hardt and Mr T.Q. Ciccone of the private sector, Dr C.H. McDonnell of the Naval Ordnance Station, Indian Head, Md, as well as Dr S. Bulusu and Messrs S. Helf, H.L. Herman, J. Hendrickson and D.J. Veal of the Energetics Materials Division, LCWSL, ARRADCOM, Dover, NJ, all contributed significantly in the literature searching and writing of many of the articles in this volume. Others who contributed to the manuscript, by invitation, are indicated at the end of the articles... 

Dr Raymond F. Walker, Energetics Materials Division Chief, provided financial support and encourage meat to continue this work, as did Mr Edward J. Kolb of Headquarters, US Army Materiel Development and Readiness Command (DARCOM). Further financial support was received from the sale of copies to non-government agencies and individuals by the National Technical Information Service, US Department of Commerce, Springfield, Va 22161... 

There has also been a distinct effort made not to- include subject areas which are not specifically pertinent to the subject of energetic materials... 

Dr. Fedoroff was a unique repository of histmical facts, as well as an internationally recognized expert in energetic materials... 

H. D. Fair and R.F. Walker, Edits, Energetic Materials—1, Physics and Chemistry of the Inorganic Azides , Plenum Press, NY (1977)... 

Characterization of Energetic Materials, Their Decomposition Products and Their Residues — Progress in the Identification and Detection of Explosives , PATM 2136 (Mar 1974) 69)... 

Most of the energetic materials related work on microencapsulation was done on the high-energy rocket proplnt program around 1960 to 1970 and was classified CONFIDENTIAL or SECRET at the time. Most of the work is now declassified. The refs contain several good reviews of the state of the art, both military and general... 

Many attachments and special devices have been developed to extend and implement the applicability of the OM. One of these is a controlled atmosphere microscope dry-box which offers reproducible environmental control for applications involving toxic, air, or moisture sensitive ingredients, typical of many energetic materials (Ref 33)... 

Another area of TEM application to energetic materials is the work of S.M. Kaye at PicArsn on expls and propints. He used TEM. to establish a procedure for detg the particle size distribution of LA batches of different crystal habits from various manufacturers (Ref 25. ... 

Illustrations of the deleterious effects of moisture on the manuf, storage and performance of individual classes of energetic materials will now be considered... 

Effect of Moisture on Explosives Expls are the only energetic materials which can exist in useable form as a w slurry. These materials do not meet Mil specifications, however, they are commercially available and are used as gels in mining operations (Refs 35, 36, 43 44)... 

Ref 58 discusses the application of electronic instrumentation to moisture measurement. Procedures amenable to use for energetic materials include ... 

Other Uses of Nitric Acid. As mentioned earlier, fuming nitric acid (FNA) when mixed with ale, toluene or acet anhydr will cause an expln. However, there are many other uses for FNA in energetic materials technology. As either red fuming nitric acid (RFNA) or as nitrogen tetrox-ide, it is used extensively as the oxidizer in pro-pint systemsnfor ram-jets, jet motors, space rockets and other missiles (Refs 37, 38 39). See also under Liquid Propellants in Vol 7, L24-Rff... 

Another extremely important application area for FNA and RFNA is to either directly nitrate or be used in mixed acids to nitrate raw materials to yield widely used expls and proplnt ingredients (Refs 29,31,33,38 39). Also see under Nitration in this Vol Analytical. Analysis and assay procedures for nitric acid may be found in Refs 1, 2,10,11,15, 17, 27, 29, 34, 35, and in this Vol under Nitrogen Determinations in Energetic Materials. 

A discussion of nitrimines usage as energetic materials is part of the article entitled Amines Nitrated and Nitrited in Vol 1, A174-R to A178-R... 

The quantitative detn of combined nitrogen in energetic materials is of the greatest interest... 

One of the least expensive and popular techniques for the quant detn of bound N in energetic materials is that of titrimetry. There are currently three basic titrimetry systems used aq acid-base, redox and non-aqueous (involving both acid-base and redox systems in which there is association, not ionization of the re-actants). The simple aq acid-base titrimetry system has been shown, earlier in the article, being used in the Kjeldahl, De varda and Ter-Meulen procedures to detn liberated NH3. It is also utilized, for example, to detn nitrosyi-sulfuric acid in mixed acids, total acidity in nitric acid, NG in exp] oils, and the N content of... 

The widely used technique of light spectroscopy has also been applied to the qual and quant detn of bound N in energetic materials. There are five distinct systems used colorimetry, infrared spectroscopy, polarimetry, Raman spec troscopy and ultraviolet spectroscopy... 

Nitrogen tetroxide is formed as an undesirable product in several instances, eg, during the storage of some energetic materials, particularly NC, NG and mixts contg them, such as propints and Dynamite. In these Ihe nitric esters decomp at elevated temps. In some cases, even such stable nitrocompds as TNT can begin to evolve N02 when stored at higher than ambient temps. 

L34-R to L44-R Hypergolic Propellants in Vol 7, H254-L to H259-R Nitrogen Determination in Energetic Materials, and Mass Spectrometry in this Vol... 

Nonaqueous Titration Methods. See under Nitrogen Determination in Energetic Materials in this Vol... 

The remainder of this article will be devoted to specific applications of NAA to energetic materials and processes. Areas of interest will include ... 

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