Add to ORKGThermodynamic states encountered during combustion of Aluminum powder in Shock-Dispersed-Fuel (SDF) explosions were analyzed with the Cheetah code. Results are displayed in the Le Chatelier diagram: the locus of states of specific internal energy versus temperature. Accuracy of the results was confirmed by comparing the fuel and products curves with the heats of detonation and combustion, and species composition as measured in bomb calorimeter experiments. Results were fit with analytic functions u = f(T) suitable for specifying the thermodynamic properties required for gas-dynamic models of combustion in explosions
It is common practice to add reactive metal particles to high-explosive formulations ...
An investigation of shock–particle interactions in reactive flows is performed using an Eulerian hyd...
171 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.Aluminum is a desirable compo...
A two-phase model for Aluminum particle combustion in explosions is proposed. It combines the gas-dy...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
We present a Model for simulating experiments of combustion in Shock-Dispersed-Fuel (SDF) explosions...
La combustion de l'aluminium est un phénomène présent dans de nombreux domaines, tels que le domaine...
We investigate the thermodynamic states occurring in explosion fields from condensed explosive charg...
Aluminum is an important energetic material that burns with a variety of oxidizers with a high react...
This research characterizes the blast wave and temperature evolution of an explosion fireball in ord...
The combustion of aluminum is a phenomenon present in many fields, such as the space, defense and au...
We study the thermodynamic states encountered during Shock-Dispersed-Fuel (SDF) explosions. Such exp...
Here we review experimental data and models of the ignition of aluminum (Al) particles and clouds in...
Results of shock-dispersed-fuel (SDF) explosion experiments are presented. The SDF charge consisted ...
Heating rate effect and particle size effect on ignition temperature of Al powder were studied to co...
It is common practice to add reactive metal particles to high-explosive formulations ...
An investigation of shock–particle interactions in reactive flows is performed using an Eulerian hyd...
171 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.Aluminum is a desirable compo...
A two-phase model for Aluminum particle combustion in explosions is proposed. It combines the gas-dy...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
We present a Model for simulating experiments of combustion in Shock-Dispersed-Fuel (SDF) explosions...
La combustion de l'aluminium est un phénomène présent dans de nombreux domaines, tels que le domaine...
We investigate the thermodynamic states occurring in explosion fields from condensed explosive charg...
Aluminum is an important energetic material that burns with a variety of oxidizers with a high react...
This research characterizes the blast wave and temperature evolution of an explosion fireball in ord...
The combustion of aluminum is a phenomenon present in many fields, such as the space, defense and au...
We study the thermodynamic states encountered during Shock-Dispersed-Fuel (SDF) explosions. Such exp...
Here we review experimental data and models of the ignition of aluminum (Al) particles and clouds in...
Results of shock-dispersed-fuel (SDF) explosion experiments are presented. The SDF charge consisted ...
Heating rate effect and particle size effect on ignition temperature of Al powder were studied to co...
It is common practice to add reactive metal particles to high-explosive formulations ...
An investigation of shock–particle interactions in reactive flows is performed using an Eulerian hyd...
171 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.Aluminum is a desirable compo...