TNTON/DNTF 共晶特性研究:基于低共晶混合物的熔铸炸药载体探索†。

IF 3.9 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY RSC Advances Pub Date : 2024-11-20 DOI:10.1039/D4RA03904A
Xinyu Feng, Qi Xue, Junlin Zhang, Kaidi Yang, Kunkai Wang, Bozhou Wang and Fuqiang Bi
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引用次数: 0

摘要

为了改变 DNTF 浇铸的敏感性和熔点,通过一种新方法制备了不敏感炸药 3,5,5-三硝基-1,3-恶嗪(TNTON)和 DNTF 的共晶体系。研究了不同比例 TNTON/DNTF 的熔化和液化过程,建立了 T-x 相图。比较了 TNTON、DNTF 和 TNTON/DNTF 共晶在不同加热速率下的熔化和分解过程,并进行了敏感性测试,研究 TNTON 对 DNTF 的脱敏作用。利用 EXPLO-5 软件计算了 TNTON/DNTF 共晶的起爆性能。实验结果表明,TNTON/DNTF 共晶的化学计量组成为 58.26 :41.74,平均熔点为 69 °C。随着加热速率的增加,熔化和分解反应都会延迟。根据活化能(Ea)曲线,热分解是一个自催化过程。TNTON/DNTF 共晶的冲击灵敏度和摩擦灵敏度分别为 38 J 和 252 N。TNTON/DNTF 共晶的理论密度为 1.906 g cm-3,计算得出的爆炸速度为 8921 m s-1。TNTON/DNTF 共晶具有良好的热稳定性,在保持其高能量水平的同时可显著降低 DNTF 的敏感性。TNTON/DNTF 低共晶浇注炸药的起爆性能优于 TNT 基浇注炸药。
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Research on TNTON/DNTF eutectic characteristics: an exploration of low eutectic mixture based melt-cast explosive carriers†

To modify the sensitivity and melting point of the casting of DNTF, a eutectic system of insensitive explosive 3,5,5-trinitro-1,3-oxazinane (TNTON) and DNTF was prepared through a new method. The melting and liquefaction processes of TNTON/DNTF at different ratios were investigated, and a T–x phase diagram was established. The melting and decomposition processes of TNTON, DNTF, and TNTON/DNTF eutectic at different heating rates were compared, while the sensitivity tests were conducted to study the desensitizing effect of TNTON on DNTF. Using EXPLO-5 software, the detonation performance of the TNTON/DNTF eutectic was calculated. The experimental results show that the stoichiometric composition of the TNTON/DNTF eutectic is 58.26 : 41.74, with an average melting point of 69 °C. With the increase of heating rate, both the melting and decomposition reactions are delayed. According to the activation energy (Ea) curve, the thermal decomposition is through an autocatalytic process. The impact and friction sensitivity of the TNTON/DNTF eutectic are 38 J and 252 N, respectively. Theoretical density of the TNTON/DNTF eutectic is 1.906 g cm−3, and the calculated detonation velocity is 8921 m s−1. The TNTON/DNTF eutectic exhibits good thermal stability and can significantly reduce the sensitivity of DNTF while maintaining its high energy level. The detonation performance of TNTON/DNTF low eutectic cast explosive is better than that of TNT based cast explosive.

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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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