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A Facile-Synthesized Dual-Network Multi-Ionic Integrated Explosive with Enhanced Detonation Performance and Promoted Aluminum Reactivity

Yun‐Fan Yan, Yu Shang, Ming‐Yu Guo, Shao‐Li Chen, Meng Cui, Zhihong Yu, Wei‐Xiong Zhang, Xiao‐Ming Chen

2025Chemical Engineering Journal6 citationsDOI

Topics & Concepts

Explosive materialAmmonium perchlorateDetonationMaterials scienceOxygen balanceThermal decompositionFlexibility (engineering)NanotechnologyScalabilityReactivity (psychology)Energetic materialBottleneckPyrotechnicsBenchmark (surveying)Yield (engineering)AluminiumProcess engineeringDecompositionPropellantPerovskite (structure)Work (physics)StoichiometryComputer scienceThermalChemical engineeringRational designCrystal (programming language)PoolingDensity functional theoryCharacterization (materials science)Energetic Materials and CombustionHigh-pressure geophysics and materialsThermal and Kinetic Analysis
A Facile-Synthesized Dual-Network Multi-Ionic Integrated Explosive with Enhanced Detonation Performance and Promoted Aluminum Reactivity | Litcius