Experimental study on impact-initiated characters of multifunctional energetic structural materials

惰性 放热反应 材料科学 高能材料 冲击波 化学反应 休克(循环) 活性材料 起爆 热力学 机械 复合材料 核工程 法律工程学 化学 爆炸物 有机化学 物理 工程类 医学 内科学
作者
X. F. Zhang,An Shi,Lele Qiao,J. Zhang,Y. G. Zhang,Zhongwei Guan
出处
期刊:Journal of Applied Physics [American Institute of Physics]
卷期号:113 (8) 被引量:112
标识
DOI:10.1063/1.4793281
摘要

Multifunctional energetic structural materials (MESMs) are a new class of energetic materials, which release energy due to exothermic chemical reactions initiated under shock loading conditions. In order to analyze the impact-initiated process of MESMs, a quasi-sealed test chamber, which was originally developed by Ames [“Vented chamber calorimetry for impact-initiated energetic materials,” in AIAA (American Institute of Aeronautics and Astronautics, 2005), p. 279], is used to study on shock-induced chemical reaction characters at various impact velocities. The impact initiated experiments are involving two typical MESMs, Al/PTFE (polytetrafluoroethylene), W/Zr and inert 2024 Al fragment. The video frames recorded from reactive and inert material impact events have shown the process of late-time after burn phenomena. The total pressure and shock wave reflection at the wall of the test chamber are measured using high frequency gauges. The quasi-pressures inside the test chamber, which is fitting from the total pressure curves, are used to determine the impact initiated reaction efficiencies of MESMs at different impact velocities. A thermochemical model for shock-induced reactions, in which the reaction efficiency is considered, is validated against the experimental data from impact initiation. The results show that the impact velocity plays a significant role in chemical reaction and the energy release characteristics of MESMs. The theoretical calculations correlate reasonably well to the corresponding experimental results, which can be used to predict the reaction results of MESMs over a wide range of pressure satisfactorily.
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