Add to ORKGAn important fundamental problem is the study of processes in reacting condensed media and, in partic-ular, the study of detonation phenomena in solid explosives. Experimental studies of chemical reactions and the structure of detonation and shock waves (including that at the micro- and mesoscale) face sig-nificant difficulties caused, first, by high intensity of these waves and, second, by the scales of thes
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
In this paper an overview of Molecular Dynamics simulations of chemically reacting systems is descri...
The structure of a self-sustained detonation wave in solid energetic materials was studied using mol...
The structure of a self-sustained detonation wave in solid energetic materials was studied using mol...
The structure of a self-sustained detonation wave in solid energetic materials was studied using mol...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
Large-scale molecular dynamics simulations using a REBO (reactive empirical bond-order) model potent...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
Modern computers enable routine multimillion-atom molecular dynamics simulations of shock propagatio...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
In this paper an overview of Molecular Dynamics simulations of chemically reacting systems is descri...
The structure of a self-sustained detonation wave in solid energetic materials was studied using mol...
The structure of a self-sustained detonation wave in solid energetic materials was studied using mol...
The structure of a self-sustained detonation wave in solid energetic materials was studied using mol...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
Large-scale molecular dynamics simulations using a REBO (reactive empirical bond-order) model potent...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
Modern computers enable routine multimillion-atom molecular dynamics simulations of shock propagatio...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
In this paper an overview of Molecular Dynamics simulations of chemically reacting systems is descri...