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Advanced Energetic Materials: Testing and Modeling
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To accelerate the potential applications, various works focused on the physical and chemical characteristics through theory, experiments, and simulations of advanced energetic materials (AEMs), including nano-scale energetic materials (nEMs) and micro-scale energetic materials (mEMs). This Special Issue collected comprehensive knowledge on materials synthesis, characterization, combustion, mechanical, detonation, and safety. This Special Issue, Advanced Energetic Materials: Testing and Modeling, explores innovative EMs and EMs ingredients and formulations tests and models. It collected contributions covering recent progress and models of energetic materials in chemical propulsion. Attention was focused on the design, model, properties, and state-of-the-art of this class of thermochemical propulsion devices. A total of 13 papers were selected for publication after a standard peer review process, which summarizes the most recent achievements of famous research groups. Participation of young authors with novel/innovative concepts was especially encouraged, of course, with the assistance of their supervisors.
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Keywords
- (Sm, Zr)(Co
- 3,4-Bis(3-nitrofurazan-4-yl) furozan (DNTF)
- 5-amino-1H-tetrazole
- Aluminum
- Artificial Neural Networks
- as-cast state
- burning rate
- cast PBX
- CL-20
- coherent 1:5 phase
- combustible agent
- combustion pyrolysis characteristics
- composite explosives
- cook-off
- Crystallization
- Cu
- cyclization reaction
- detonation performance
- development trend
- DNTF
- dynamics research
- energetic binder GAP
- equation of state
- explosive crystals
- Fe)z alloys
- fragmentation impact
- friction sensitivity
- high-energy HTPB propellant
- high-energy materials genome
- high-energy permanent magnets
- ignition
- ignition characteristic
- insensitive munition
- JEOL
- laser ignition
- low-melting crystal
- Mathematics & science
- mechanical sensitivity
- mesoscopic model
- micro-Raman
- microfluidic
- micromagnetic simulation
- micromechanical properties
- mitigation structure
- modification method
- molecular dynamics simulation
- multifactor computational models
- MuMax3
- N-oxides
- n/a
- nanoindentation
- Ni/Al energetic structural materials
- Numerical Simulation
- oxidation process
- Physics
- pressure relief area
- pressure relief effect
- RDX@FOX-7
- reaction kinetic model
- reaction mechanism
- Reference, information & interdisciplinary subjects
- Research & information: general
- Safety Engineering
- sandwich model
- shock initiation
- Synthesis
- tear gas mixture
- thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
- thema EDItEUR::P Mathematics and Science::PH Physics
- thermal analysis
- thermal reaction
- two reaction stages
Links
DOI: 10.3390/books978-3-0365-9457-6Editions