Add to ORKGAn extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dissipative Particule Dynamics is presented and applied to liquid nitromethane. Large scale non-equilibrium simulations of reacting nitromethane under sustained shock conditions allow a better understanding of the shock-to-detonation transition in homogeneous explosives. Moreover, the propagation of the reactive wave appears discontinuous since ignition points in the shocked material can be activated by the compressive waves emitted from the onset of chemical reactions
Nitromethane (NM) is widely applied in chemical technology as a solvent for extraction, cleaning, an...
We have studied shock-induced changes in homogeneous high explosives including nitromethane, tetrani...
Nitromethane (NM) is widely applied in chemical technology as a solvent for extraction, cleaning, an...
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 (see Maillet J. B. et al., EPL, 78 (2007) 680...
We use molecular dynamics (MD) simulations with the ReaxFF reactive force field to investigate the t...
Experimental and theoretical evidence for the nonequilibrium Zeldovich-von Neumann-Doring (NEZND) th...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
The structure of deflagration to detonation transition in gases is studied through high-resolution n...
We investigate the ignition and dynamics of detonation waves in condensed phase explosives using dir...
A theoretical model is developed to describe the nature of molecular energy transfer and chemical re...
An important fundamental problem is the study of processes in reacting condensed media and, in parti...
We carried out reactive flow simulations of liquid explosives such as nitromethane using the hydrody...
Our current interest focuses on the atomic level details of the decomposition mechanism of liquid NM...
The detonation reaction zone of nitromethane (NM) has been extensively studied both experimentally ...
Nitromethane (NM) is widely applied in chemical technology as a solvent for extraction, cleaning, an...
We have studied shock-induced changes in homogeneous high explosives including nitromethane, tetrani...
Nitromethane (NM) is widely applied in chemical technology as a solvent for extraction, cleaning, an...
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 (see Maillet J. B. et al., EPL, 78 (2007) 680...
We use molecular dynamics (MD) simulations with the ReaxFF reactive force field to investigate the t...
Experimental and theoretical evidence for the nonequilibrium Zeldovich-von Neumann-Doring (NEZND) th...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
The structure of deflagration to detonation transition in gases is studied through high-resolution n...
We investigate the ignition and dynamics of detonation waves in condensed phase explosives using dir...
A theoretical model is developed to describe the nature of molecular energy transfer and chemical re...
An important fundamental problem is the study of processes in reacting condensed media and, in parti...
We carried out reactive flow simulations of liquid explosives such as nitromethane using the hydrody...
Our current interest focuses on the atomic level details of the decomposition mechanism of liquid NM...
The detonation reaction zone of nitromethane (NM) has been extensively studied both experimentally ...
Nitromethane (NM) is widely applied in chemical technology as a solvent for extraction, cleaning, an...
We have studied shock-induced changes in homogeneous high explosives including nitromethane, tetrani...
Nitromethane (NM) is widely applied in chemical technology as a solvent for extraction, cleaning, an...