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基于LS-DYNA的杆式弹侵彻规律研究

黄文博印立魁付建平黄俊杰王琪波刘春华郭鑫张瑞刚

中北大学学报（自然科学版）2026，Vol.47Issue(1)：18-25,45,9.

中北大学学报（自然科学版）2026，Vol.47Issue(1)：18-25,45,9.DOI:10.62756/jnuc.issn.1673-3193.2025.07.0002

基于LS-DYNA的杆式弹侵彻规律研究

Research on the Penetration Law of Rod-Shaped Projectiles Based on LS-DYNA

黄文博 ¹印立魁 ¹付建平 ¹黄俊杰 ²王琪波 ³刘春华 ⁴郭鑫 ⁴张瑞刚⁵

作者信息

1. 中北大学机电工程学院,山西太原 030051
2. 前卫科技集团有限公司弹药设计与毁伤评估实验室,重庆 401123
3. 西北工业集团有限公司,陕西西安 710043
4. 吉林江机特种工业有限公司,吉林吉林 132000
5. 晋西工业集团有限责任公司,山西太原 030027
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摘要

Abstract

In order to study the penetration performance of long-rod projectile under hypervelocity conditions,numerical simulation model of vertical penetration unreinforced concrete target was established by using ANSYS/LS-DYNA.The influence of the projectile material,length-to-diameter ratio,projectile cone angle and head cone angle on the penetration capability of the long-rod projectile was analyzed within the impact velocity range from 2.0 to 6.0 Ma.The finite element simulation was used to compare the three materials of 93 tungsten alloy,G50 alloy steel and TA7 titanium alloy.The effects of the structural parameters such as the aspect ratio form 4 to 10,the cone angle from 0° to 10° and the head cone angle from 30° to 180° were studied.The results demonstrate that during hypervelocity penetration,93 tungsten alloy exhibits the highest penetration efficiency under identical mass and length-to-diameter ratio,significantly outperforming G50 alloy steel and TA7 titanium alloy.The impact of projectile length-to-diameter ratio and cone angle on dimensionless penetration depth is more pronounced,and their optimal values within the investigated range are 10 and 10°,respectively.The projectile head cone angle is a critical factor affecting the transition speed of hole expansion,and a reduction in head cone angle can enhance the transition speed and penetration efficiency.When the head cone angle exceeds 120°,the penetration depth is beginning to stabilize.Under all tested conditions,the maximum penetration depth occurs at a projectile impact velocity of approximately 4.5 Ma.The results of this study can provide reference for the material selection and structural design of the hypervelocity penetrator warhead.

关键词

侵彻弹/长杆弹/宽速域/混凝土靶/LS-DYNA

Key words

penetrating projectile/long-rod projectile/wide velocity range/concrete target/LS-DYNA

分类

军事科技

引用本文复制引用

黄文博,印立魁,付建平,黄俊杰,王琪波,刘春华,郭鑫,张瑞刚..基于LS-DYNA的杆式弹侵彻规律研究[J].中北大学学报（自然科学版）,2026,47(1):18-25,45,9.

中北大学学报（自然科学版）

ISSN：1673-3193

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