长杆弹超高速侵彻半无限混凝土靶实验研究及开坑分析

Translated title of the contribution: Experiment research and crater analysis of long rodhypervelocity penetration into concrete

Jie Wang, Haijun Wu*, Jiequn Zhou, Xiaohai Shi, Jinzhu Li, Aiguo Pi, Fenglei Huang

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

4 Citations (Scopus)

Abstract

With the development of hypervelocity kinetic energy weapons, the mechanism of long rod hypervelocity penetration into concrete target was a research highlight. To study the penetration mechanism and the crater law of long rod hypervelocity penetration into concrete, two kinds of long rods, TU1 and Q235, hypervelocity penetration into concrete with initial velocity of 1.8−2.4 km/s were experimented. Dimensional analyses of crater diameter and crater volume were performed based on the experiment data from this paper and references. Prediction formula of crater depth was derived from the bowl shape contour of crater section. The crater size of hypervelocity penetration was obviously larger than that of low and medium velocity penetration, and so the crater phase was non-negligible during the penetration mechanism researches. The length of the long rod was severely shortened until the long rod was completely eroded, the radius of the hole was obviously larger than that of long rod, and these results can be used to verify that the mechanism of long rod hypervelocity penetration into concrete was semi-fluid penetration. At the same time, it can be seen from the experimental results that the length of the long rod was the most important parameter affecting the penetration depth. The penetration depth increased with the increase of the length and density of the projectile, but was not affected by the strength of the long rod.

Translated title of the contributionExperiment research and crater analysis of long rodhypervelocity penetration into concrete
Original languageChinese (Traditional)
Article number093301
JournalBaozha Yu Chongji/Expolosion and Shock Waves
Volume40
Issue number9
DOIs
Publication statusPublished - 5 Sept 2020

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