Research on the quasi-isentropic driving model of aluminized explosives in the detonation wave propagation direction

Hongfu Wang ¹Yan Liu ²Fan Bai ³Chao He ³Yingliang Xu ³Qiang Zhou ⁴Chuan Xiao ⁴Fenglei Huang³

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作者信息

1. State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,Beijing,100081,China;China Research and Development Academy of Machinery Equipment,Beijing,100089,China
2. State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,Beijing,100081,China;Beijing Institute of Technology Chongqing Innovation Center,Chongqing,401120,China
3. State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,Beijing,100081,China
4. China Research and Development Academy of Machinery Equipment,Beijing,100089,China
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Abstract

Taking CL-20(Hexanitrohexaazaisowurtzitane)-based aluminized explosives with high gurney energy as the research object,this research experimentally investigates the work capability of different aluminized explosive formulations when driving metal flyer plates in the denotation wave propagation direction.The research results showed that the formulations with 43 μm aluminum(Al)powder particles(The particle sizes of Al powder were in the range of 2～43 μm)exhibited the optimal performance in driving flyer plates along the denotation wave propagation direction.Compared to the formulations with Al powder 13 μm,the formulations with Al powder 2 μm delivered better performance in accelerating metal flyer plates in the early stage,which,however,turned to be poor in the later stage.The CL-20-based explosives containing 25％Al far under-performed those containing 15％Al.Based on the pro-posed quasi-isentropic hypothesis,relevant isentropy theories,and the functional relationship between detonation parameters and entropy as well as Al reaction degree,the characteristic lines of aluminized explosives in accelerating flyer plates were theoretically studied,a quasi-isentropic theoretical model for the aluminized explosive driving the flyer plate was built and the calculation methods for the variations of flyer plate velocity,Al reaction degree,and detonation product parameters with time and axial po-sitions were developed.The theoretical model built is verified by the experimental results of the CL-20-based aluminized explosive driving flyer plate.It was found that the model built could accurately calculate the variations of flyer plate velocity and Al reaction degree over time.In addition,how physical parameters including detonation product pressure and temperature varied with time and axial positions was identified.The action time of the positive pressure after the detonation of aluminized explosives was found prolonged and the downtrend of the temperature was slowed down and even reversed to a slight rise due to the aftereffect reaction between the Al powder and the detonation products.

Key words

Aluminized explosive/Flyer plate experiment/Quasi-isentropic theoretical model/Al reaction/Driving characteristics

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基金项目

National Natural Science Foundation of China(11872120)

出版年

2024

防务技术

中国兵工学会

防务技术

CSTPCD

影响因子：0.358

ISSN：2214-9147

参考文献量45

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