Through the description of the mechanism of azido reaction, this paper discusses several methods and techniques of inducing azido radical into organic molecules and the applications of azido reaction in explosives synthesis.
Some viewpoints on the design of explosive molecules are discussed basedupon the relationship between their structures and properties,and the trend of energeticmaterial development is refferred as well.
In this paper, by using micellar electrokinetic capillary chromatography and capillary zone electrophoresis respectively,the three isomers were well separated with good selectivity and reproducibility in both experiment systems. Satisfactory separation results were also obtained on the analysis of C-12 explosive and its impurity.
Physicochemical properties of Al2O3 powder produced by explosive synthesis
The phase, dispersive, and morphological features of an aluminum oxide powder produced by explosive synthesis are examined experimentally.
It is suggested that release of a considerable amount of heat during transition of the amorphous phase to the crystalline state plays a determining role in the stabilization of the size of the primary gel particles in the explosive synthesis.
Explosive Synthesis of Ultradisperse Aluminum Oxide in an Oxygen‐Containing Medium
Explosive synthesis of ultradisperse aluminum oxide in an oxygen‐containing medium is studied.