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Energetic nanomaterials : synthesis, characterization, and application /
Energetic Nanomaterials: Synthesis, Characterization, and Application provides researchers in academia and industry the most novel and meaningful knowledge on nanoenergetic materials, covering the fundamental chemical aspects from synthesis to application. This valuable resource fills the current ga...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Cambridge, MA :
Elsevier Science,
©2016.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Title page; Table of Contents; Copyright; Dedication; List of Contributors; Preface; Chapter One. Nanoenergetic Materials: A New Era in Combustion and Propulsion; 1. Introduction; 2. Combustion of Al Nanoparticles; 3. Combustion of Nanothermite Compositions; 4. Combustion of Nanoexplosives; 5. Experimental Methods to Characterize Nanoenergetic Systems Performance; 6. Conclusion; Chapter Two. Fast-Reacting Nanocomposite Energetic Materials: Synthesis and Combustion Characterization; 1. Introduction; 2. Effect of Fuel and Oxidizer Proximity on Combustion.
- 3. Tuning Combustion Performance of Energetic Nanocomposites Through Surface Functionalization of the Fuels4. Conclusions; Chapter Three. Nanometals: Synthesis and Application in Energetic Systems; 1. Introduction; 2. Nanometals in Energetic Systems; 3. Ignition of Energetic Systems Containing Nanoaluminum; 4. Nanoaluminum Combustion in Solid Propellants; 5. Nanoaluminum Usage in Thermites; 6. Nanoaluminum in Explosives; 7. Conclusion; Chapter Four. Mechanisms and Microphysics of Energy Release Pathways in Nanoenergetic Materials; 1. Introduction; 2. Heat Transfer.
- 3. Physical Response of the Oxide Shell4. Reaction Mechanisms; 5. Conclusion and Future Directions; Chapter Five. Applications of Nanocatalysts in Solid Rocket Propellants; 1. Introduction; 2. Impact of Nanocatalysts on the Thermal Decomposition of Ammonium Perchlorate as Oxidizer in Solid Propellants; 3. Impact of Metal Nanoparticles on the Thermal Decomposition of AP; 4. Impact of Metallic Oxide Nanoparticles on the Thermal Decomposition of AP; 5. Impact of Hydrogen-Storage Nanoparticles on the Thermal Decomposition of AP.
- 6. Impact of Nanocatalysts on the Thermal Decomposition of AP/HTPB Propellant7. Impact of Metal Nanoparticles on the Thermal Decomposition of AP/HTPB; 8. Impact of Hydrogen-Storage Nanoparticles on the Thermal Decomposition of AP/HTPB; 9. Impact of Nanocatalysts on the Combustion Performance of AP/HTPB Propellant; 10. Conclusions; Chapter Six. Nanocoating for Activation of Energetic Metals; 1. Introduction; 2. Nickel-Coated Aluminum Particles; 3. Thermoanalytical Tests; 4. Ignition Tests; 5. Iron-Coated Aluminum Particles; 6. Conclusions.
- Chapter Seven. Nanostructured Energetic Materials and Energetic Chips1. Introduction; 2. 1D NSEMs and Energetic Chips; 3. Two-Dimensional NSEMs and Energetic Chips; 4. Three-Dimensional NSEMs and Energetic Chips; 5. Conclusions; Chapter Eight. Combustion Behavior of Nanocomposite Energetic Materials; 1. Introduction; 2. Nanostructured Composite High-Energy-Density Materials; 3. Nanothermites; 4. Conclusions; Chapter Nine. Catalysis of HMX Decomposition and Combustion: Defect Chemistry Approach; 1. Introduction; 2. Experimental; 3. Results and Discussion.