The Chemistry of ExplosivesRoyal Society of Chemistry, 2015 M10 9 - 206 páginas This concise, easy-to-read book outlines the basic principles needed to understand the chemical mechanisms of explosion. Covering detonation, deflagration, initiation, the latest theories on the production of ""hotspots"", thermochemistry, thermodynamics and kinetics, the text includes detailed formulations and reactions presented with thermochemical calculations to aid understanding. The history, theory and chemical types of explosives are introduced, along with propellants, pyrotechnics and the most up-to-date information on energetic binders for explosive compositions. Covering all aspects of explosive chemistry from history to manufacturing techniques and formulation, The Chemistry of Explosives is a unique text which introduces difficult subjects in a readable manner. Ideal for A-level students and new graduates with no previous knowledge of explosive materials, it will also be useful to anyone needing succinct information on the subject. |
Contenido
ONitration | 138 |
Primary Explosives | 151 |
Gasgenerating Propellants | 170 |
Chapter | 1 |
Chapter | 2 |
Development of Military Explosives | 8 |
8 | 24 |
Classification of Explosive Materials | 27 |
Effect of Explosive Material on the Velocity | 71 |
Ignition by Impact and Friction | 77 |
Chapter 5 | 85 |
Modified KistiakowskyWilson Rules | 90 |
Rocket Propellants 167 | 95 |
Volume of Gaseous Products of Explosion | 100 |
Mixed Explosive Compositions | 106 |
Chapter 6 | 116 |
Propellants | 33 |
Chapter 3 | 40 |
The Chemistry of Explosives 3rd Edition | 60 |
Kinetics of Explosive Reactions | 124 |
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Términos y frases comunes
ACD/Labs added aluminium ammonium nitrate amount atoms blackpowder blasting calculated called carbon Characteristics Explosive material chemical Chemistry cmÀ3 components compounds contain converted crystalline crystals decomposition deflagration dependent detonation developed dynamite effect energy Examples explosive composition Explosive material Colour explosive substances Figure Flash formation formation/kJ molÀ1 formulations friction fuel give heat heat of explosion hotspots ignition impact increase initiation insensitive known lead azide less light liquid manufacturing mercury fulminate mixed mixture Molar Molecular weight molecules nitric nitrocellulose nitrogen nitroglycerine Nitroguanidine occur oxidizer oxygen performance PETN picric acid point/1C potassium prepared presented in Table pressing pressure primary explosives propellants properties reaction reduce resulting rocket rules secondary explosives sensitive shockwave shown shown in Equation solid solution stable structure TATB Teflon temperature Tetryl thermal tion volume wave White World