A theoretical model is developed to describe the nature of molecular energy transfer and chemical reactivity in shocked energetic materials. The intent is to develop a fundamental understanding of the sensitivity of secondary explosives, which are solids consisting of large organic molecules. Because secondary explosives are stable molecules with large barriers to chemical reaction, before reactions can occur, a sizable amount of energy must be transferred from the shock produced phonons to the molecules ' internal vibrations by multiphonon uppumping. The dominant mechanism for uppumping is anharmonic coupling of excited phonon modes with low frequency molecular vibrations, termed doorway modes. Quantitative calculations are presented ...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
Many current models of condensed-phase explosives employ reaction rate law models where the form of ...
An ab initio study is performed for the initiation of chemistry in high explosive crystals from a so...
High explosives represent a class of materials known as energetic materials, in which providing an e...
High explosives release mechanical energy through chemical reactions. Applications of high explosive...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
It has long been known that there are fundamental differences between homogeneous and heterogeneous ...
With the aim of developing new technologies for the detection and defeat of energetic materials, thi...
Understanding the microscopic details of shock-wave initiation of energetic materials requires a rea...
First of all I would like to thank Professor S. Odiot and her colleagues for organizing a productive...
This review presents a concept, which assumes that thermal decomposition processes play a major role...
The three dimensional Arbitrary Lagrange Eulerian hydrodynamic computer code ALE3D with fully couple...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The dynamics of ignition between a contact surface and a shock wave is investigated using a one-ste...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
Many current models of condensed-phase explosives employ reaction rate law models where the form of ...
An ab initio study is performed for the initiation of chemistry in high explosive crystals from a so...
High explosives represent a class of materials known as energetic materials, in which providing an e...
High explosives release mechanical energy through chemical reactions. Applications of high explosive...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
Recent experimental and theoretical advances in understanding energy transfer and chemical kinetics ...
It has long been known that there are fundamental differences between homogeneous and heterogeneous ...
With the aim of developing new technologies for the detection and defeat of energetic materials, thi...
Understanding the microscopic details of shock-wave initiation of energetic materials requires a rea...
First of all I would like to thank Professor S. Odiot and her colleagues for organizing a productive...
This review presents a concept, which assumes that thermal decomposition processes play a major role...
The three dimensional Arbitrary Lagrange Eulerian hydrodynamic computer code ALE3D with fully couple...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The dynamics of ignition between a contact surface and a shock wave is investigated using a one-ste...
An extension of the model described in a previous work of Maillet, Soulard and Stoltz based on a Dis...
Many current models of condensed-phase explosives employ reaction rate law models where the form of ...
An ab initio study is performed for the initiation of chemistry in high explosive crystals from a so...