Add to ORKGMechanical stimuli in energetic materials initiate chemical reactions at shock fronts prior to detonation. Shock sensitivity measurements provide widely varying results, and quantum-mechanical calculations are unable to handle systems large enough to describe shock structure. Recent developments in reactive force-field molecular dynamics (ReaxFF-MD) combined with advances in parallel computing have paved the way to accurately simulate reaction pathways along with the structure of shock fronts. Our multimillion-atom ReaxFF-MD simulations of l,3,5-trinitro-l,3,5-triazine (RDX) reveal that detonation is preceded by a transition from a diffuse shock front with well-ordered molecular dipoles behind it to a disordered dipole distribution behind a...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The fundamental processes in shock-induced instabilities of materials remain obscure, particularly f...
We use the recently developed reactive force field ReaxFF with molecular dynamics (MD) to study the ...
We develop strain-driven compression-expansion technique using molecular dynamics (MD) with reactive...
Molecular dynamics simulations of the chemical responses of shocked dislocation-contained and perfec...
Large-scale molecular dynamics simulations and the reactive force field ReaxFF were used to study sh...
UnrestrictedThis dissertation focuses on molecular dynamics (MD) simulations of shock sensitivity of...
Multiple types of external stimuli are usually loaded on an energetic material (EM) simultaneously, ...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
We report a reactive molecular dynamic (ReaxFF-MD) study using the newly parameterized ReaxFF-lg rea...
A basic theoretical structure for mechanochemical transformations based on prior models for solid-st...
Thesis: Ph. D. in Physical Chemistry, Massachusetts Institute of Technology, Department of Chemistry...
A basic theoretical structure for mechanochemical transformations based on prior models for solid-st...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The fundamental processes in shock-induced instabilities of materials remain obscure, particularly f...
We use the recently developed reactive force field ReaxFF with molecular dynamics (MD) to study the ...
We develop strain-driven compression-expansion technique using molecular dynamics (MD) with reactive...
Molecular dynamics simulations of the chemical responses of shocked dislocation-contained and perfec...
Large-scale molecular dynamics simulations and the reactive force field ReaxFF were used to study sh...
UnrestrictedThis dissertation focuses on molecular dynamics (MD) simulations of shock sensitivity of...
Multiple types of external stimuli are usually loaded on an energetic material (EM) simultaneously, ...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
We report a reactive molecular dynamic (ReaxFF-MD) study using the newly parameterized ReaxFF-lg rea...
A basic theoretical structure for mechanochemical transformations based on prior models for solid-st...
Thesis: Ph. D. in Physical Chemistry, Massachusetts Institute of Technology, Department of Chemistry...
A basic theoretical structure for mechanochemical transformations based on prior models for solid-st...
We report here the predictions on anisotropy of shock sensitivity and of chemical process initiation...
The major goal of this PhD project is to investigate the fundamental properties of energetic materia...
The fundamental processes in shock-induced instabilities of materials remain obscure, particularly f...