Bulusu S.N. (ed.) Chemistry and Physics of Energetic Materials

Handbook. — Dordrecht, Kluwer Academic Publishers. 1990 — 764 p.Fundamental Principles of Thermal Explosions and Recent Applications
Modelling Isothermal Waves of Chemical Reaction
Thermochemical Modeling: I. Application to Decomposition of Energetic Materials
Thermochemical Modeling: II. Application to Ignition and Combustion of Energetic Materials
Fundamental Physics and Chemistry Behind Molecular Crystal Detonations at a Microscopic Level
On the X_α Local Spin Density Approximation in the Study of Organic Molecules
On the Dissociation of Chemical Bonds
Structure-Sensitivity Relationships in Energetic Compounds
Computational Studies of Energetic Nitramines
Molecular Dynamics Approach to Detonation Studies and Related Problems in the Condensed Phase
Molecular Dynamical Studies of Energy Transport and Energy Sharing in Molecular Dissociation
Fast Thermolysis-Fourier Transform Infrared Spectroscopy Methods to Study Energetic Materials
Structure-Thermolysis Relationships for Energetic Materials
The Application of Simultaneous Thermogravimetric Modulated Beam Mass Spectrometry and Time-of-flight Velocity Spectra Measurements to the Study of the Pyrolysis of Energetic Materials
Thermal Decomposition of HMX and RDX: Decomposition Processes and Mechanisms Based on STMBMS and TOF Velocity-Spectra Measurements
The Diamond Anvil Cell for Physical and Chemical
Investigations of Energetic Materials at High Pressures
Effects of Pressure on the Thermal Decomposition Rates, Chemical Reactivity, and Phase Behavior of HMX, RDX and Nitromethane
Mechanistic Investigations of Condensed Phase Energetic Material Decomposition Processes using the Kinetic Deuterium Isotope Effect
Mechanistic Relationships of the Decomposition Process to Combustion and Explosion Events from Kinetic Deuterium Isotope Effect Investigations
KIVA Reactive Hydrodynamics Code Applied to Detonations in High Vacuum
Detonation Chemistry Studies of Energetic Materials using Laboratory Scale Samples
Analysis of Reaction Products of Propellants and High Explosives
Chemical Sensitisation in Nitro, Nitramine, and Nitrate Explosives
The Response of Energetic Materials to Projectile Impact
Fundamentals of X-Ray Photoelectron Spectroscopy (XPS) and its Applications to Explosives and Propellants
XPS Study of Hot Spots and Sensitization Centers in Energetic Materials
Sensitivity Relationships in Energetic Materials
Molecular Architecture Versus Chemistry and Physics of Energetic Materials
Emission Spectroscopy as a Tool to Detect Decomposition Products of Laser Irradiated Explosives
Tandem Mass Spectrometry (MS/MS) and Collision Induced Dissociation (CID) - An Introduction
MS/MS of Energetic Compounds: Collision Induced Dissociation (CID) Studies of Fragmentation Processes in Energetic Molecules
NQR/NMR Studies of Solid Phase Energetic Materials