Your search keyword '"Zhi Ming Xie"' showing total 3 results

1. Dinitrophenyl-oxadiazole compounds: Design strategy, synthesis, and properties of a series of new melt-cast explosives.

Author

Bao-long Kuang, Ting-wei Wang, Cong Li, Mou Sun, Qamar-un-Nisa Tariq, Chao Zhang, Zhi-ming Xie, Zu-jia Lu, and Jian-guo Zhang

Subjects

TNT (Chemical), OXADIAZOLES, MELTING points, NUCLEAR magnetic resonance, FOURIER transform infrared spectroscopy

Abstract

Melt-cast explosives are the most widely used energetic materials in military composite explosives, researchers have been unremittingly exploring high-energy and insensitive melt-cast explosives. In this work, a series of dinitrophenyl-oxadiazole compounds were designed and prepared. These compounds have an ideal low melting point (80e97 °C), good detonation performance (detonation velocity D ¼ 6455 e6971 m/s, detonation pressure P ¼ 18e19 GPa) and extreme insensitive nature (impact sensitivity ≥60 J, friction sensitivity >360 N). All these compounds were well characterized by nuclear magnetic resonance, fourier transform infrared spectroscopy, elemental analysis. Compounds 2, 3 were unambiguously confirmed by X-ray single crystal diffraction analysis. As a result, their overall properties are superior to traditional melt-cast explosives trinitrotoluene (TNT) and dinitroanisole (DNAN) which may have excellent potential applications in insensitive melt-cast explosives. © 2023 China Ordnance Society. Publishing services by Elsevier B.V. on behalf of KeAi Communications [ABSTRACT FROM AUTHOR]

Published

2024

2. Optimization of performance and sensitivity: preparation of two Ag(I)-based ECPs by using isomeric ligands.

Author

Chao Zhang, Ting-Wei Wang, Zu-Jia Lu, Zhen-Xin Yi, Bao-Long Kuang, Shu Bu, Zhi-Ming Xie, Yan Li, Kun Wang, and Jian-Guo Zhang

Subjects

EXPLOSIVES, LIGANDS (Chemistry), FURAZANS, THERMAL stability, ELEMENTAL analysis, X-ray diffraction

Abstract

For energetic compounds, their structure determines their performance, and even minor variations in their structure can have a significant impact on their performance. The application scenarios for energetic materials are diverse, and their performance requirements vary as well. To investigate the influence of different substituent positions on the performance of primary explosives, we prepared two Ag(I)-based complexes, [Ag(2-IZCA)ClO4]n (ECPs-1) and [Ag(4-IZCA)ClO4]n (ECPs-2), using structurally isomeric ligands, 1H-imidazole-2-carbohydrazide (2-IZCA) and 1H-imidazole-4-carbohydrazide (4-IZCA). The structures were confirmed using infrared, elemental analysis, and single-crystal X-ray diffraction. Experimental results demonstrate that both ECPs exhibit good thermal stability. However, compared to ECPs-1, ECPs-2 exhibits a lower thermal initial decomposition temperature (Td = 210 °C), lower mechanical sensitivity (IS = 27 J, FS = 84 N), and more concentrated energy output. Although theoretical predictions suggest similar detonation velocities and pressures for both compounds, actual detonation performance tests indicate that ECPs-2 has stronger explosive power and initiating capability, with potential for use as a laser initiator (E = 126 mJ). The simple preparation method and inexpensive starting materials enrich the research on primary explosives. [ABSTRACT FROM AUTHOR]

Published

2023

3. Properties of polyacrylate soap-free hydrosol with zirconium chelate.

Author

Zhi Hong Huang, Zhi Ming Xie, and Zhuo Mei Li

Published

2003