Energy output performance of aluminized explosive containing Al/PTFE reactive materials

IF 3.9 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
RSC Advances Pub Date : 2024-10-29 DOI:10.1039/D4RA01476F
Fan Jiang, Peipei Sun, Yufan Bu, Yulei Niu, Yuanyuan Li, Kun Zhang, Xiaofeng Wang and Hai Nan
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Abstract

In this paper, a series of CL-20 based explosive formulations containing Al/PTFE reactive materials are designed using a self-designed closed explosion test device. The quasi-static pressure (QSP) and peak temperature of the explosive reaction are studied under different mass percentages of Al/PTFE and different charge structures. The composition and morphology of the solid residue products after the explosion were analyzed, proving the feasibility of using Al/PTFE in explosives and providing theoretical support for the design of the aluminized explosive in this system. The results show that a high content of Al/PTFE reactive material can be successfully detonated by CL-20. Using CL-20 as the central explosive column can make pure Al/PTFE react, but this will result in a decrease in QSP by about 25%. The mass ratio of 75/25 has the highest QSP, which can reach 0.289, 0.310, 0.270 and 0.218 MPa. The three samples in G2# exhibit the highest equilibrium temperature, with G2#A, G2#B and G2#C reaching 868.2 °C, 942.0 °C and 626.2 °C, respectively. Regardless of the charge structure, the equilibrium temperatures after explosion of Al/PTFE at ratios of 75/25 and 70/30 are higher than those of 60/40. When the proportion of Al/PTFE is 60/40, the equilibrium temperature after explosion will decrease by nearly 20%. XRD revealed that the solid residue mainly comprises Al, α-Al2O3 and γ-Al2O3. No C element was found in the solid product, indicating that the C element mainly exists in a gaseous state after the explosion.

含 Al/PTFE 反应材料的镀铝炸药的能量输出性能
本文利用自行设计的封闭式爆炸试验装置,设计了一系列含有 Al/PTFE 反应材料的基于 CL-20 的爆炸配方。研究了不同质量百分比的 Al/PTFE 和不同装药结构下爆炸反应的准静压(QSP)和峰值温度。分析了爆炸后固体残留产物的成分和形态,证明了在炸药中使用 Al/PTFE 的可行性,并为在该系统中设计镀铝炸药提供了理论支持。结果表明,CL-20 可以成功引爆高含量的 Al/PTFE 活性材料。使用 CL-20 作为中心炸药柱可使纯 Al/PTFE 起反应,但这会导致 QSP 降低约 25%。质量比为 75/25 的 QSP 最高,可达 0.289、0.310、0.270 和 0.218 MPa。G2# 中的三个样品显示出最高的平衡温度,G2#A、G2#B 和 G2#C 分别达到 868.2 ℃、942.0 ℃ 和 626.2 ℃。无论电荷结构如何,Al/PTFE 的比例为 75/25 和 70/30 时,爆炸后的平衡温度均高于 60/40 时。当 Al/PTFE 的比例为 60/40 时,爆炸后的平衡温度会降低近 20%。XRD 显示,固体残留物主要由 Al、α-Al2O3 和 γ-Al2O3 组成。固态产物中没有发现 C 元素,这表明爆炸后 C 元素主要以气态存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
RSC Advances
RSC Advances chemical sciences-
CiteScore
7.50
自引率
2.60%
发文量
3116
审稿时长
1.6 months
期刊介绍: An international, peer-reviewed journal covering all of the chemical sciences, including multidisciplinary and emerging areas. RSC Advances is a gold open access journal allowing researchers free access to research articles, and offering an affordable open access publishing option for authors around the world.
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