In recent years, there has been a considerable interest in the development of novel type of high performance propellants for use in solid rocket motors. Ammonium salt of dinitramidic acid NH4N(NO2)2 (ADN) has attracted wide interest as a potentially useful energetic oxidizer for rocket propellants because of its clean and environment-friendly exhaust products during burning. ADN contains one N-(NO2)2 group and its synthesis requires new type of N-nitration. The present paper reviews the general synthetic methods used for the synthesis of inorganic, organic and metal dinitramide salts and their properties, with a special emphasis on ammonium dinitramide. The salient features with reference to the extent of conversion and ease of separation of the products of the various synthetic methodologies are also addressed. (Abstract Copyright [2004], Wiley Periodicals, Inc.)
An overview on the synthetic routes and properties of ammonium dinitramide (ADN) and other dinitramide salts
Propellants, Explosives, Pyrotechnics ; 29 , 3 ; 178-187
2004
10 Seiten, 56 Quellen
Aufsatz (Zeitschrift)
Englisch
Hochleistung , Treibpulver , fester Körper , Rakete , Motor , Ammonium , anorganisches Salz , Oxidationsmittel , Überblick , organisches Metall , Urheberrecht , Fachzeitschrift , Luftfahrzeug , Brennstoff , Dioxid , Umgebung (Umwelt) , Fahrzeug , Flugkörper , Nichtmetalloxid , Nichtmetallverbindung , Oxid , Raumfahrzeug , Reinigen , Sauerstoffverbindung , Stickoxid , Stickstoffdioxid , Stickstoffverbindung , Synthese , Verkehrsmittel , anorganische Stickstoffverbindung , anorganische Verbindung , chemische Verbindung , fester Brennstoff
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