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Modeling of the effect of lasers on energetic materials - Fraunhofer EMI
Enhanced thermal decomposition, laser ignition and combustion properties of NC/Al/RDX composite fibers fabricated by electrospinning | SpringerLink
Laser Ignition of Metalized Solid Propellants: Science & Engineering Book Chapter | IGI Global
含能材料激光点火 | |本 | 通販 | Amazon
Materials | Free Full-Text | Development of 2.45 GHz Semiconductor Microwave System for Combustion Ignition Enhancement and Failure Analysis
Confinement in the diode laser ignition of energetic materials - Trepo
A) Laser ignition and high-speed imaging set up (B) nozzle... | Download Scientific Diagram
Low-Power Laser Ignition of an Antenna-Type Secondary Energetic Copper Complex: Synthesis, Characterization, Evaluation, and Ignition Mechanism Studies | Inorganic Chemistry
Laser ignition and controlled explosion of nanoenergetic materials: The role of multi-walled carbon nanotubes - ScienceDirect
Low-Power Laser Ignition of an Antenna-Type Secondary Energetic Copper Complex: Synthesis, Characterization, Evaluation, and Ignition Mechanism Studies | Inorganic Chemistry
Study on Laser Ignition Characteristics of NEPE Propellant | Scientific.Net
͑ Color online ͒ Schematic of laser ignition process for an Al-capped... | Download Scientific Diagram
Photoflash and laser ignition of full density nano-aluminum PVDF films
Fabrication and remote laser ignition of Al/CuO energetic nanocomposites incorporated with functional dyes for enhanced light absorption - ScienceDirect
Combustion of Energetic Materials | Z-Energy Lab
Investigations Concerning the Laser Ignition of Energetic Coordination Compounds
Laser ignition of energetic complexes: impact of metal ion on laser initiation ability - New Journal of Chemistry (RSC Publishing)
Combustion of Energetic Materials | Z-Energy Lab
Low-Power Laser Ignition of an Antenna-Type Secondary Energetic Copper Complex: Synthesis, Characterization, Evaluation, and Ignition Mechanism Studies | Inorganic Chemistry
Modeling of high energy laser ignition of energetic materials
Boosting Laser-Ignited Combustion Performance of Energetic Materials with Low Sensitivity: Integration of Triazene-Bridged Triazole with Oxygen-Rich Moieties via Noncovalent Self-Assembly | Crystal Growth & Design