Enhanced combustion behavior of TKX-50/B/NC composites via electrospray

IF 1.7 3区材料科学 Q3 CHEMISTRY, APPLIED Journal of Energetic Materials Pub Date : 2022-06-26 DOI:10.1080/07370652.2022.2094034

Shu-Ji Wang, Di Wang, Ping Liu, Xiao-le Sun, Shi Yan, Xue-Yong Guo

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Abstract

ABSTRACT

TKX-50, as a representative of a new nitrogen-rich energetic compound, has attracted extensive interests due to its high energy and low sensitivity properties. As an important energetic material, combustible agent has great influence on improving the energy level of explosives and propellants. Boron powder has become the most potential combustible agent in energetic fields because of its unique performances. In this work, nano-boron-based microspheres containing TKX-50 are directly fabricated by electrospray deposition. The prepared microspheres showed high monodispersity with particle size ranging from ~1–3 μm. Thermal behavior results show that the mass gain of the electrostatically sprayed sample is 163.3%, which is much higher than that of pure boron and physically mixed samples. Combustion behavior tests show that electrosprayed microspheres exhibit outstanding performance in comparison to physical mixed sample, the peak pressure improved by 85%, the burning time decreased by 21% and the pressurization rate improved by 136%. These excellent properties are probably related to their uniform microstructure. Therefore, electrospray preparation of microspheres with controllable structure has a good application prospect in energetic materials.

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电喷雾增强TKX-50/B/NC复合材料的燃烧性能

ttkx -50作为一种新型富氮能化合物的代表，由于其高能量和低灵敏度的特性而引起了广泛的关注。可燃剂作为一种重要的含能材料，对提高炸药和推进剂的能量水平有着重要的影响。硼粉以其独特的性能成为高能领域中最具潜力的可燃剂。在这项工作中，采用电喷雾沉积法直接制备了含有TKX-50的纳米硼基微球。制备的微球具有良好的单分散性，粒径范围为~1 ~ 3 μm。热行为结果表明，静电喷涂后的样品质量增益为163.3%，远高于纯硼和物理混合样品的质量增益。燃烧性能测试表明，与物理混合样品相比，电喷涂微球表现出优异的燃烧性能，峰值压力提高85%，燃烧时间缩短21%，增压率提高136%。这些优异的性能可能与其均匀的微观结构有关。因此，电喷雾制备结构可控的微球在含能材料中具有良好的应用前景。

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来源期刊

Journal of Energetic Materials 工程技术-材料科学：综合

CiteScore

5.70

自引率

4.80%

发文量

审稿时长

1.8 months

期刊介绍： The Journal of Energetic Materials fills the need for an international forum of scientific and technical interchange in the disciplines of explosives, propellants, and pyrotechnics. It is a refereed publication which is published quarterly. Molecular orbital calculations, synthetic and analytical chemistry, formulation, ignition and detonation properties, thermal decomposition, hazards testing, biotechnology, and toxicological and environmental aspects of energetic materials production are appropriate subjects for articles submitted to the Journal.