Add to ORKGRegions of energy localization referred to as hotspots are known to govern shock initiation and the run-to-detonation in energetic materials. Mounting computational evidence points to accelerated chemistry in hotspots from large intramolecular strains induced via the interactions between the shockwave and microstructure. However, definite evidence mapping intramolecular strain to accelerated or altered chemical reactions has so far been elusive. From a large-scale reactive molecular dynamics simulation of the energetic material TATB, we map molecular temperature and intramolecular strain energy prior to reaction to decomposition kinetics. Both temperature and intramolecular strain are shown to accelerate chemical kinetics. A detailed analys...
With the aim of developing new technologies for the detection and defeat of energetic materials, thi...
In this work, the mesoscale processes of consolidation, deformation and reaction of shocked porous e...
Mechanical stimuli in energetic materials initiate chemical reactions at shock fronts prior to deton...
High explosives represent a class of materials known as energetic materials, in which providing an e...
Mechanical forces acting on atoms or molecular groups can alter chemical kinetics and decomposition ...
A theoretical model is developed to describe the nature of molecular energy transfer and chemical re...
A basic theoretical structure for mechanochemical transformations based on prior models for solid-st...
First of all I would like to thank Professor S. Odiot and her colleagues for organizing a productive...
Computer molecular dynamics has been used to study the time evolution of the energy of diatomic mole...
The mesoscopic processes of consolidation, deformation and reaction of shocked porous energetic mate...
Abstract What do nanoscopic biomolecular complexes between the cells that line our blood vessels hav...
Shock initiation of heterogeneous high-energy materials is often preceded by the loss of crystalline...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
We use the recently developed reactive force field ReaxFF with molecular dynamics (MD) to study the ...
Multiple types of external stimuli are usually loaded on an energetic material (EM) simultaneously, ...
With the aim of developing new technologies for the detection and defeat of energetic materials, thi...
In this work, the mesoscale processes of consolidation, deformation and reaction of shocked porous e...
Mechanical stimuli in energetic materials initiate chemical reactions at shock fronts prior to deton...
High explosives represent a class of materials known as energetic materials, in which providing an e...
Mechanical forces acting on atoms or molecular groups can alter chemical kinetics and decomposition ...
A theoretical model is developed to describe the nature of molecular energy transfer and chemical re...
A basic theoretical structure for mechanochemical transformations based on prior models for solid-st...
First of all I would like to thank Professor S. Odiot and her colleagues for organizing a productive...
Computer molecular dynamics has been used to study the time evolution of the energy of diatomic mole...
The mesoscopic processes of consolidation, deformation and reaction of shocked porous energetic mate...
Abstract What do nanoscopic biomolecular complexes between the cells that line our blood vessels hav...
Shock initiation of heterogeneous high-energy materials is often preceded by the loss of crystalline...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
We use the recently developed reactive force field ReaxFF with molecular dynamics (MD) to study the ...
Multiple types of external stimuli are usually loaded on an energetic material (EM) simultaneously, ...
With the aim of developing new technologies for the detection and defeat of energetic materials, thi...
In this work, the mesoscale processes of consolidation, deformation and reaction of shocked porous e...
Mechanical stimuli in energetic materials initiate chemical reactions at shock fronts prior to deton...