Innovative Energetic Materials: Properties, Combustion Performance and Application, Pang Weiqiang, DeLuca Luigi T., Gromov Alexander A.
Автор: Mohammad Hossein Keshavarz, Thomas M. Klapotke Название: Energetic Compounds: Methods for Prediction of their Performance ISBN: 3110677644 ISBN-13(EAN): 9783110677645 Издательство: Walter de Gruyter Рейтинг: Цена: 11148.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание:
This book discusses methods for the assessment of energetic compounds through heat of detonation, detonation pressure, velocity and temperature, Gurney energy and power. The authors focus on the detonation pressure and detonation velocity of non-ideal aluminized energetic compounds. This 2nd Edition includes an updated and improved presentation of simple, reliable methods for the design, synthesis and development of novel energetic compounds.
Автор: Mohammad Hossein Keshavarz, Thomas M. Klapotke Название: Energetic Compounds: Methods for Prediction of their Performance ISBN: 311067775X ISBN-13(EAN): 9783110677751 Издательство: Walter de Gruyter Рейтинг: Цена: 111573.00 р. Наличие на складе: Нет в наличии.
Описание:
This book discusses methods for the assessment of energetic compounds through heat of detonation, detonation pressure, velocity and temperature, Gurney energy and power. The authors focus on the detonation pressure and detonation velocity of non-ideal aluminized energetic compounds. This 2nd Edition includes an updated and improved presentation of simple, reliable methods for the design, synthesis and development of novel energetic compounds.
Описание: This doctoral dissertation presents a model to evaluate trade-offs between the energetic, economic, and environmental lifecycle performance of building projects.
Описание: High-energy solid propellants for the next generation development GAP/AND/AlH3: a comprehensive review of innovative energetic materials.- Combustion and application of energetic nano thermite in solid propellant.- Ignition and combustion behavior of innovative energetic materials: CL-20 in composite solid propellants.- Theoretical and experimental investigation of Agglomeration phenomena in combustion of aluminized composite solid propellant.- Combustion performance of Solid Rocket Propellants Containing TKX-50.- Condensed combustion production of energetic materials in solid rocket propellant.- Ignition of Energetic Materials - A review of our recent theoretical and experimental.- Deaggloneration and incapsulation of metal and bimetal nanoparticles for energetic applications.- Method of model agglomerates and its application to study the combustion mechanisms of Al, Ti, Al+B particles.- Application of innovative energetic materials-ADN in solid rocket propellant.- Nitrogen - rich materials in gun propellant applications.- Combustion features of energetic metal fuels in solid and hybrid propulsion.- Ignition and combustion of high-energy materials.
Описание: For a chemist who is concerned with the synthesis of new energetic compounds, it is essential to be able to assess physical and thermodynamic properties, as well as the sensitivity, of possible new energetic compounds before synthesis is attempted. Various approaches have been developed to predict important aspects of the physical and thermodynamic properties of energetic materials including (but not limited to): crystal density, heat of formation, melting point, enthalpy of fusion and enthalpy of sublimation of an organic energetic compound. Since an organic energetic material consists of metastable molecules capable of undergoing very rapid and highly exothermic reactions, many methods have been developed to estimate the sensitivity of an energetic compound with respect to detonationcausing external stimuli such as heat, friction, impact, shock and electrostatic discharge. This book introduces these methods and demonstrates those methods which can be easily applied.
Over the past two decades, the rapid development of nanochemistry and nanotechnology has allowed the synthesis of various materials and oxides in the form of nanopowders making it possible to produce new energetic compositions and nanomaterials.
This book has a bottom-up structure, from nanomaterials synthesis to the application fields. Starting from aluminum nanoparticles synthesis for fuel application, it proposes a detailed state-of-the art of the different methods of preparation of aluminum-based reactive nanomaterials. It describes the techniques developed for their characterization and, when available, a description of the fundamental mechanisms responsible for their ignition and combustion. This book also presents the possibilities and limitations of different energetic nanomaterials and related structures as well as the analysis of their chemical and thermal properties. The whole is rounded off with a look at the performances of reactive materials in terms of heat of reaction and reactivity mainly characterized as the self-sustained combustion velocity. The book ends up with a description of current reactive nanomaterials applications underlying the promising integration of aluminum-based reactive nanomaterial into micro electromechanical systems.
This book describes, as simply as possible, the mechanisms of scattering (both elastic and inelastic) of electrons with solid targets (electron-atom, electron-plasmon, and electron-phonon interactions). It also presents the main strategies of the Monte Carlo method, as well as numerous comparisons between simulation results and the experimental data available in the literature. Furthermore it provides readers with all the information they need in order to write their own Monte Carlo code and to compare the obtained results with the many numerical and experimental examples presented throughout the book.
An extended and updated third edition of a work published in 2014 (first edition) and in 2017 (second edition) on the application of the Monte Carlo method to the transport of fast electrons in solids, this book includes, as novel topics, the theory of polarized electron beams (i.e. density matrix and spin polarization), the study of elastic scattering by molecules, a classical treatment of the Bethe-Bloch stopping power, a simple derivation of the f- and ps-sum rules, the Vicanek and Urbassek formula for the calculation of the backscattering coefficient, the Wolff theory describing the secondary electron spectra, and fundamental aspects of the interactions between electrons beams and solid targets. Further, it describes a completely analytical approach (the so-called multiple reflection method) for calculating the absorbed, backscattered, and transmitted fractions of electrons from unsupported and supported thin films. It also discusses recent applications of the Monte Carlo method.
Описание: Chapter 1. Introduction.- Chapter 2. Experimental and Computational Methods.- Chapter 3. Vibrational Up-Pumping in some Molecular Energetic Materials.- Chapter 4. Vibrational Up-Pumping in Polymorphic Materials.- Chapter 5. General Conclusions and Future Predictions.
Автор: Suhithi M. Peiris; Gasper J. Piermarini Название: Static Compression of Energetic Materials ISBN: 3642087841 ISBN-13(EAN): 9783642087844 Издательство: Springer Рейтинг: Цена: 19589.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание: This volume meets the demand for a state-of-the-art survey of relevant aspects of static compression of energetic materials and will be a valuable reference to researchers and scientists working in academic, industrial and governmental research laboratories.
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