Explosion systems with inert high-modulus components : increasing the efficiency of blast technologies and their applications /

Describes in one volume the data received during experiments on detonation in high explosive charges This book brings together, in one volume, information normally covered in a series of journal articles on high explosive detonation tests, so that developers can create new explosive technologies. It...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Balagansky, I. A. (Igor Andreevich), 1952- (Autor), Bataev, A. A. (Anatoliy) (Autor), Bataev, I. A. (Ivan) (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, NJ : Wiley, 2019.
Temas:
Detonation waves.
Explosions.
Blast effect.
Fracture mechanics.
Shaped charges.
Ondes de détonation.
Effet de souffle.
Mécanique de la rupture.
explosions.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Preface; Chapter 1 Examples of Nonstationary Propagation of Detonation in Real Processes; 1.1 Channel Effect; 1.2 Detonation of Elongated High Explosive Charges with Cavities; 1.3 The Effects of Wall and Shell Material, Having Sound Velocity Greater Than Detonation Velocity, on the Detonation Process; 1.4 Summary; References; Chapter 2 Phenomena in High Explosive Charges Containing Rod-Shaped Inert Elements; 2.1 "Smoothing" of Shock Waves in Silicon Carbide Rods; 2.1.1 Experiments with Ceramic Rods
  • 2.1.2 Numerical Simulation of Shock Wave Propagation in Silicon Carbide Rods2.2 Desensitization of Heterogeneous High Explosives After Loading by Advanced Waves Passing Through Silicon Carbide Elements; 2.2.1 The Experiments on Detonation Transmission; 2.2.2 Modeling of the Detonation Transmission Process Under Initiating Through Inert Inserts; 2.3 The Phenomenon of Energy Focusing in Passive High Explosive Charges; 2.3.1 Characterization of Steel Specimens Deformed in Experiments on Energy Focusing; 2.3.2 Optical Recording in Streak Mode; 2.3.3 Optical Recording in Frame Mode
  • 2.3.4 Numerical Modeling of the Energy Focusing Phenomenon2.4 Summary; References; Chapter 3 Nonstationary Detonation Processes at the Interface Between High Explosive and Inert Wall; 3.1 Measurements with Manganin Gauges; 3.2 Optical Recording in Streak Mode; 3.3 Modeling of Detonation in High Explosive Charges Contacting with Ceramic Plates; 3.4 Summary; References; Chapter 4 Peculiar Properties of the Processes in High Explosive Charges with Cylindrical Shells; 4.1 Nonstationary Detonation Processes in High Explosive Charges with Silicon Carbide Shells
  • 4.2 Numerical Analysis of the Influence of Shells on the Detonation Process4.3 Summary; References; Chapter 5 Hypervelocity of Shaped Charge Jets; 5.1 Experimental Investigation of Ceramic Tube Collapse by Detonation Products; 5.2 Modeling of Jet Formation Process; 5.3 The Effect of Hypervelocity Jet Impact Against a Steel Target; 5.4 Modeling of Fast Jet Formation Under Explosion Collision of Two-Layer Alumina/Copper Tubes; 5.5 Summary; References; Chapter 6 Protective Structures Based on Ceramic Materials; 6.1 Detonation Transmission Through Dispersed Ceramic Media
  • 6.2 Applications of the Protective Properties of Ceramic Materials6.3 Summary; References; Chapter 7 Structure of the Materials Loaded Using Explosion Systems with High-Modulus Components; 7.1 Materials Behavior at High Strain Rate Loading; 7.2 Postmortem Investigation of Materials Structure for Indirect Evaluation of Explosive Loading; 7.3 Structure of Materials Loaded Under Conditions of Energy Focusing; 7.4 Effect of High-Velocity Cumulative Jets on Structure of Metallic Substrates; 7.5 Summary; References; Conclusions; List of the Main Publications of Authors on the Theme of Monograph

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