Add to ORKGA two-phase model for Aluminum particle combustion in explosions is proposed. It combines the gas-dynamic conservation laws for the gas phase with the continuum mechanics laws of multi-phase media, as formulated by Nigmatulin. Inter-phase mass, momentum and energy exchange are prescribed by the Khasainov model. Combustion is specified as material transformations in the Le Chatelier diagram which depicts the locus of thermodynamic states in the internal energy-temperature plane according to Kuhl. Numerical simulations are used to show the evolution of two-phase combustion fields generated by the explosive dissemination of a powdered Al fuel
It is common practice to add reactive metal particles to high-explosive formulations ...
The characteristics of ignition and extinction in thermites and intermetallics are a subject of inte...
High explosive charges when detonated ensue in a flow field characterized by several physical phenom...
We present a Model for simulating experiments of combustion in Shock-Dispersed-Fuel (SDF) explosions...
Thermodynamic states encountered during combustion of Aluminum powder in Shock-Dispersed-Fuel (SDF) ...
A Model of the energy evolution in thermobaric explosions is presented. It is based on the two-phase...
La combustion de l'aluminium est un phénomène présent dans de nombreux domaines, tels que le domaine...
The combustion of aluminum is a phenomenon present in many fields, such as the space, defense and au...
Shock-induced dissemination and burning of aluminum particles in air is numerically simulated using ...
AbstractPhysical and hydrodynamic processes, accompanying explosions of condensed explosives and fue...
A heterogeneous continuum model is proposed to describe the dispersion of a dense Aluminum particle ...
Simulation of fuel-coolant interaction at mesoscale involve unsteady coupled phenomena. In this cont...
The paper presents a physical-mathematical model for metallized solid propellant combustion under ac...
The reaction model of aluminum particles is the key to successfully simulate the two-phase detonatio...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
It is common practice to add reactive metal particles to high-explosive formulations ...
The characteristics of ignition and extinction in thermites and intermetallics are a subject of inte...
High explosive charges when detonated ensue in a flow field characterized by several physical phenom...
We present a Model for simulating experiments of combustion in Shock-Dispersed-Fuel (SDF) explosions...
Thermodynamic states encountered during combustion of Aluminum powder in Shock-Dispersed-Fuel (SDF) ...
A Model of the energy evolution in thermobaric explosions is presented. It is based on the two-phase...
La combustion de l'aluminium est un phénomène présent dans de nombreux domaines, tels que le domaine...
The combustion of aluminum is a phenomenon present in many fields, such as the space, defense and au...
Shock-induced dissemination and burning of aluminum particles in air is numerically simulated using ...
AbstractPhysical and hydrodynamic processes, accompanying explosions of condensed explosives and fue...
A heterogeneous continuum model is proposed to describe the dispersion of a dense Aluminum particle ...
Simulation of fuel-coolant interaction at mesoscale involve unsteady coupled phenomena. In this cont...
The paper presents a physical-mathematical model for metallized solid propellant combustion under ac...
The reaction model of aluminum particles is the key to successfully simulate the two-phase detonatio...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
It is common practice to add reactive metal particles to high-explosive formulations ...
The characteristics of ignition and extinction in thermites and intermetallics are a subject of inte...
High explosive charges when detonated ensue in a flow field characterized by several physical phenom...