Add to ORKGAs an alternative to homogeneous reaction rates, we implement "synthetic" hot-spots through a depletion rate that is a function of the local pressure multiplied by a periodic function of the spatial coordinates. We investigate through numerical simulations how the detonation propagation is affected by the heterogeneous rate
There is a definite inconsistency between the classical ZND theory of detonation and contemporary ex...
The propagation of detonations in layers of reactive gas bounded by inert gas is simulated computati...
In the field of explosive science, the existence of the ‘hot-spot’ is generally accepted as essenti...
As an alternative to homogeneous reaction rates, we implement "synthetic" hot-spots through a deplet...
As an alternative to homogeneous reaction rates, we implement "synthetic" hotspots throug...
Empirical and phenomenological hydrodynamic reactive flow models, such as the ignition-and-growth an...
Current phenomenological hydrodynamic reactive flow models, such as Ignition and Growth and Johnson-...
Detonation propagation in a compressible medium wherein the energy release has been made spatially i...
In contrast to conventional explosives which constitute rapid decomposition of the molecular structu...
It has long been known that there are fundamental differences between homogeneous and heterogeneous ...
The three dimensional Arbitrary Lagrange Eulerian hydrodynamic computer code ALE3D with fully couple...
In order to elucidate the effect of chemical kinetics on the dynamic structure of a detonation, an ...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
Numerical simulations of detonations in cylindrical rate-sticks of highly non-ideal explosives are ...
We investigate the ignition and dynamics of detonation waves in condensed phase explosives using dir...
There is a definite inconsistency between the classical ZND theory of detonation and contemporary ex...
The propagation of detonations in layers of reactive gas bounded by inert gas is simulated computati...
In the field of explosive science, the existence of the ‘hot-spot’ is generally accepted as essenti...
As an alternative to homogeneous reaction rates, we implement "synthetic" hot-spots through a deplet...
As an alternative to homogeneous reaction rates, we implement "synthetic" hotspots throug...
Empirical and phenomenological hydrodynamic reactive flow models, such as the ignition-and-growth an...
Current phenomenological hydrodynamic reactive flow models, such as Ignition and Growth and Johnson-...
Detonation propagation in a compressible medium wherein the energy release has been made spatially i...
In contrast to conventional explosives which constitute rapid decomposition of the molecular structu...
It has long been known that there are fundamental differences between homogeneous and heterogeneous ...
The three dimensional Arbitrary Lagrange Eulerian hydrodynamic computer code ALE3D with fully couple...
In order to elucidate the effect of chemical kinetics on the dynamic structure of a detonation, an ...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
Numerical simulations of detonations in cylindrical rate-sticks of highly non-ideal explosives are ...
We investigate the ignition and dynamics of detonation waves in condensed phase explosives using dir...
There is a definite inconsistency between the classical ZND theory of detonation and contemporary ex...
The propagation of detonations in layers of reactive gas bounded by inert gas is simulated computati...
In the field of explosive science, the existence of the ‘hot-spot’ is generally accepted as essenti...