Add to ORKGInternational audienceWe present several equilibrium methods that allow to compute isentropic processes, either during the compression or the release of the material. These methods are applied to compute the isentropic release of a shocked monoatomic liquid at high pressure and temperature. Moreover, equilibrium results of isentropic release are compared to the direct nonequilibrium simulation of the same process. We show that due to the viscosity of the liquid but also to nonequilibrium effects, the release of the system is not strictly isentropic
To quantify the validity and breakdown of the continuum equations of fluid flow, the concept of entr...
Currently there are three platforms that offer quasi-isentropic compression or ramp-wave compression...
The release of solids from a state of shock compression at a free surface is examined. For isentropi...
International audienceWe present several equilibrium methods that allow to compute isentropic proces...
We have considered a shock wave as a surface of discontinuity and computed the entropy production us...
The generation of nearly isentropic pressure‐density states in a molecular fluid sample, e.g. H_2O i...
The current inversion of pressure-particle velocity data for release from a high pressure shock stat...
The current inversion of pressure-particle velocity data for release from a high-pressure shock stat...
In this paper, we study the structure of a gaseous shock, and in particular the distribution of entr...
From shaping cosmic structures in space to producing intense sounds in aircraft engines, shock waves...
We describe here a series of dynamic compression experiments using impactors with specifically presc...
A theory for the entropy production in a shock wave was developed using Gibbs’ excess properties in ...
We have examined the feasibility of using a large‐diameter, projectile‐target impact to carry out on...
We discuss, for the simplified model of a single conservation law, the concepts of genuine nonlinear...
International audienceShock capturing procedures are required to stabilise numerical simulations of ...
To quantify the validity and breakdown of the continuum equations of fluid flow, the concept of entr...
Currently there are three platforms that offer quasi-isentropic compression or ramp-wave compression...
The release of solids from a state of shock compression at a free surface is examined. For isentropi...
International audienceWe present several equilibrium methods that allow to compute isentropic proces...
We have considered a shock wave as a surface of discontinuity and computed the entropy production us...
The generation of nearly isentropic pressure‐density states in a molecular fluid sample, e.g. H_2O i...
The current inversion of pressure-particle velocity data for release from a high pressure shock stat...
The current inversion of pressure-particle velocity data for release from a high-pressure shock stat...
In this paper, we study the structure of a gaseous shock, and in particular the distribution of entr...
From shaping cosmic structures in space to producing intense sounds in aircraft engines, shock waves...
We describe here a series of dynamic compression experiments using impactors with specifically presc...
A theory for the entropy production in a shock wave was developed using Gibbs’ excess properties in ...
We have examined the feasibility of using a large‐diameter, projectile‐target impact to carry out on...
We discuss, for the simplified model of a single conservation law, the concepts of genuine nonlinear...
International audienceShock capturing procedures are required to stabilise numerical simulations of ...
To quantify the validity and breakdown of the continuum equations of fluid flow, the concept of entr...
Currently there are three platforms that offer quasi-isentropic compression or ramp-wave compression...
The release of solids from a state of shock compression at a free surface is examined. For isentropi...