International Journal of Energetic Materials and Chemical Propulsion
Publicado 6 números por año
ISSN Imprimir: 2150-766X
ISSN En Línea: 2150-7678
IF:
0.7
5-Year IF:
0.7
Immediacy Index:
0.1
Eigenfactor:
0.00016
JCI:
0.18
SJR:
0.313
SNIP:
0.6
CiteScore™::
1.6
H-Index:
16
Indexed in
NUMERICAL SIMULATION OF DETONATIONS: FUNDAMENTALS AND APPLICATION
Volumen 4,
Edición 1-6, 1997,
pp. 985-997
DOI: 10.1615/IntJEnergeticMaterialsChemProp.v4.i1-6.920
SINOPSIS
This paper presents results from a series of numerical simulations of detonations for a range of energetic materials and applications. A brief discussion is given of the computers and computational capabilities that allow such simulations. Then results are presented for simulations of cellular structure in gas-phase detonations, detonations in supernovae, and the effects of lattice structure on initiation and propagation of detonations in solid explosives. The paper concludes with a description of a new project whose objective is to develop environmentally sound ways of detonating the hundreds of megatons of surplus energetic materials.
390 Vistas de artículos
19 Descargas de artículos
Métrica
Artículos con contenido similar:
Último edicion
Próximos Artículos
Effect of HMX Content on Thermal Safety Characteristics of Modified Double Base Propellants
40 Years with Chemical Propulsion – Research, Development and Application
Effects of Fluorinated and Non-Fluorinated Additives on Burning Rates of Boron-Teflon Blends for Solid Rocket Propulsion
Short Overview and Highlights of the History of the German Gel Propulsion Research and Technology Development Activities
Experimental study of boron carbide formation in combustion of boron-containing solid propellants
Electrochemical Burn Rate Acceleration
COMBUSTION OF ALUMINUM PARTICLES IN A STREAM OF STEAM