Enviar artigo por via de e-mail Application and properties of nanometric HMX in PBX
- Autores: Liu J.1, Hao G.1, Rong Y.1, Xiao L.1, Jiang W.1, Li F.1, Jing C.1, Gao H.1, Chen T.1, Ke X.1
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Afiliações:
- National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
- Edição: Volume 53, Nº 6 (2017)
- Páginas: 744-749
- Seção: Article
- URL: https://ogarev-online.ru/0010-5082/article/view/153030
- DOI: https://doi.org/10.1134/S001050821706017X
- ID: 153030
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Resumo
A nanometric HMX-based polymer-bonded explosive (PBX) is prepared by using the solution-water slurry technique. The resultant PBX is composed of 94% of HMX, 5% of fluororubber Viton, and 1% of wax. The properties of the nanometric HMX-based PBX, such as sensitivity and compressive performance, are comprehensively researched. The results show significant improvement for the nanometric HMX-based PBX as compared to the micron-sized HMX-based PBX. The friction sensitivity, impact sensitivity, and shock sensitivity of the nanometric HMX-based PBX are obviously lower by 30, 48, and 24%, respectively. Moreover, the compressive strength and strain of the nanometric HMX-based PBX are significantly higher by 273 and 33%, respectively. Thus, both the safety and mechanical resistibility of the PBX will significantly benefit from using nanometric HMX.
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Sobre autores
J. Liu
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Autor responsável pela correspondência
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
G. Hao
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
Yu. Rong
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
L. Xiao
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
W. Jiang
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
F. Li
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
Ch. Jing
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
H. Gao
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
T. Chen
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
X. Ke
National Special Superfine Powder Engineering Research Center of China, School of Chemical Engineering
Email: jie_liu1987@163.com
República Popular da China, Nanjing, 210094
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