复合靶板抗侵彻性能结构优化
Structural Optimization of Composite Target Plate for Anti-penetration Performance
- 兵工学报 2025年46卷第S2期 页码:250792
- 作者机构:
中北大学 机电工程学院, 山西 太原 030051
- 作者简介:
* 邮箱: liangzy@nuc.edu.cn
- 基金信息:
DOI:10.12382/bgxb.2025.0792
中图分类号:收稿:2025-09-01,
网络首发:2026-02-03,
纸质出版:2025
- 稿件说明:
移动端阅览
冯慧杰, 梁增友, 李洋, 等. 复合靶板抗侵彻性能结构优化[J]. 兵工学报, 2025,46(S2):250792.
Huijie FENG, Zengyou LIANG, Yang LI, et al. Structural Optimization of Composite Target Plate for Anti-penetration Performance[J]. Acta Armamentarii, 2025, 46(S2): 250792.
冯慧杰, 梁增友, 李洋, 等. 复合靶板抗侵彻性能结构优化[J]. 兵工学报, 2025,46(S2):250792. DOI: 10.12382/bgxb.2025.0792.
Huijie FENG, Zengyou LIANG, Yang LI, et al. Structural Optimization of Composite Target Plate for Anti-penetration Performance[J]. Acta Armamentarii, 2025, 46(S2): 250792. DOI: 10.12382/bgxb.2025.0792.
摘要
装甲设计通常采用复合结构
陶瓷复合装甲借助界面效应与约束机制有效提升装甲防护效能。鉴于陶瓷可使破片破碎耗能
铝合金能进一步消耗能量
超高分子量聚乙烯可吸收剩余能量
故选用陶瓷-瓦楞铝-超高分子量聚乙烯复合靶板开展研究。针对传统复合靶板平板结构不足以抵抗弹丸高速侵彻的问题
改变铝合金层为瓦楞结构
并采用层合板铝为陶瓷面板提供支撑。采用数值模拟方法
研究1200m/s的方形钢破片在不同侵彻工况下对复合靶板的侵彻效应。研究结果表明:不同姿态侵彻下
复合装甲对点侵彻式的立方体破片防护性能最好;侵彻不同位置下
谷底侵彻效应使得剩余速度低于谷峰侵彻
防护性能更好;相较于面着靶与点着靶
棱着靶对背板的毁伤效应更强。
Abstract
The design of armor typically employs a composite structure.The protective performance of ceramic composite armor is effectively enhanced by utilizing interface effects and constraint mechanisms.Given that ceramics can dissipate energy by fragmenting projectiles
aluminum alloys can further consume energy
and ultra-high molecular weight polyethylene (UHMWPE) can absorb the remaining energy
a composite target plate composed of ceramic
corrugated aluminum and UHMWPE is selected for study.To address the issue of traditional flat composite target plates being insufficient to resist the high-speed penetration of projectile
the aluminum alloy layer is changed to a corrugated structure
and a laminated aluminum plate is used to support the ceramic panel.Numerical simulation methods are employed to study the penetration effects of square steel fragments with a speed of 1 200 m/s on the composite target plate under different penetration conditions.The results show that the composite armor exhibits the best protective performance against point-penetration cubic fragments under different penetration postures; the residual velocity of the valley penetration effect is lower than that of the peak penetration
indicating better protective performance at different penetration positions; and compared to face-on and point-on impacts
the edge-on impacts have a stronger damage effect on the back plate.
关键词
Keywords
references
刘亚昆 , 尹建平 , 张洪成 , 等 . 爆炸成型横向效应增强弹丸成型及侵彻研究 [J ] . 兵器装备工程学报 , 2025 , 46 ( 8 ): 110 - 117 .
LIU Y K , YIN J P , ZHANG H C , et al. Study on the formation and penetration of the explosively formed penetrator with enhanced lateral efficiency [J ] . Journal of Ordnance Equipment Engineering , 2025 , 46 ( 8 ): 110 - 117 . (in Chinese)
柴蓉霞 , 龙雪 , 肖力 , 等 . 高速激光熔覆复合材料靶板气动冲击行为研究 [J ] . 振动与冲击 , 2025 , 44 ( 9 ): 231 - 240 ,281.
CHAI R X , LONG X , XIAO L , et al. Pneumatic impact behavior of high-speed laser cladding composite target plate [J ] . Journal of Vibration and Shock , 2025 , 44 ( 9 ): 231 - 240 ,281. (in Chinese)
张茂哲 , 王智慧 , 张佳琪 , 等 . 铝合金约束陶瓷复合靶板抗穿甲模拟弹防护性能研究 [J ] . 弹箭与制导学报 , 2024 , 44 ( 6 ): 19 - 27 .
ZHANG M Z , WANG Z H , ZHANG J Q , et al. Anti-penetrating performance of aluminum alloy confined ceramic composite armor plate against simulated armor-piercing projectile [J ] . Journal of Projectiles,Rockets,Missiles and Guidance , 2024 , 44 ( 6 ): 19 - 27 . (in Chinese)
甄泓 , 肖李军 , 杜成鑫 , 等 . 在弹道冲击条件下超高分子量聚乙烯纤维复合材料板破坏模式 [J ] . 兵工学报 , 2025 , 46 ( 7 ): 100 - 110 .
ZHEN H , XIAO L J , DU C X , et al. Damage modes of ultra-high molecular weightpolyethylene fiber composite plates under ballistic impact conditions [J ] . Acta Armamentarii , 2025 , 46 ( 7 ): 100 - 110 . (in Chinese)
张江 , 吴国民 . 结构间隙对复合靶板抗弹性能的影响 [J ] . 船舶工程 , 2024 , 46 ( 6 ): 29 - 35 .
ZHANG J , WU G M . Influence of structural gap on anti-ballistic performance of composite target plate [J ] . Ship Engineering , 2024 , 46 ( 6 ): 29 - 35 . (in Chinese)
张根 , 何泽侃 , 宣海军 , 等 . 三维织物复合材料高速冲击性能和损伤机制研究 [J ] . 复合材料科学与工程 , 2024 ( 5 ): 43 - 51 .
ZHANG G , HE Z K , XUAN H J , et al. Study on high speed impact performance and damage mechanism of 3D fabric structural composites [J ] . Composites Science and Engineering , 2024 ( 5 ): 43 - 51 . (in Chinese)
武一丁 , 高光发 , 王晓东 . 不同速度下B4C陶瓷/铝合金轻型复合靶板抗侵彻行为研究 [J ] . 南京理工大学学报 , 2023 , 47 ( 4 ): 503 - 513 .
WU Y D , GAO G F , WANG X D . Study on penetration resistance of B4C/aluminum alloy lightweight composite target at different speeds [J ] . Journal of Nanjing University of Science and Technology , 2023 , 47 ( 4 ): 503 - 513 . (in Chinese)
刘亚婷 . 碳/玻/芳纶纤维混杂层合板抗冲击性能研究 [D ] . 天津 : 中国民航大学 , 2022 .
LIU Y T . Study on impact resistance property of carbon/glass/aramid fiber hybrid laminates [D ] . Tianj in:Civil Aviation University of China, 2022 . (in Chinese)
吴远丽 , 刘立胜 , 赖欣 , 等 . 陶瓷复合结构抗侵彻行为的近场动力学研究 [J ] . 计算机仿真 , 2021 , 38 ( 10 ): 268 - 274 .
WU Y L , LIU L S , LAI X , et al. Peridynamics Simulation of ceramic composite structures against penetration [J ] . Computer Simulation , 2021 , 38 ( 10 ): 268 - 274 . (in Chinese)
ZHOU Y S , ZHENGC S . Impact resistance performance and structural optimization of lightweight composite target plate [J ] . Polymer Composites , 2024 , 45 ( 7 ): 6482 - 6497 .
BISWAS K , DATTA D . Numerical simulation of ballistic impact on multilayer ceramic backed fibre reinforced composite target plate [J ] . Proceedings of the Institution of Mechanical Engineers,Part L:Journal of Materials:Design and Applications , 2022 , 236 ( 8 ): 1527 - 1540 .
DENG Y J , YI Y , YI W , QUK F , et al. Ballistic performance of multi-layered B4C ceramic and UHMWPE fibre laminate targets subjected to hypervelocity impact by tungsten alloy ball [C ] //Proceedings of Structures.New York,NY, US:Elsevier . 2022 , 45 : 542 - 559 .
WANG L , XUE X S , WANG T , et al. Research on impact resistance of CF/UHMWPE fiber interlayer hybrid composite target plateJ].Journal of Physics:Conference Series . IOP Publishing , 2025 , 3021 ( 1 ): 012080 .
QU C , KONG C D , ZHANG F B , et al. Effects of different elastic number and thickness ratios on damage mechanism of aramid/UHMWPE composite target plate [J ] . Mechanics of Composite Materials , 2024 , 60 ( 5 ): 875 - 888 .
皮骏 , 崔红利 , 贾元琨 . 碳-芳纶纤维复合材料高速冲击响应数值模拟 [J ] . 机械强度 , 2024 , 46 ( 2 ): 416 - 423 .
PI J , CUI H L , JIA Y K . Numerical simulation of high-speed impact response of carbon aramid fiber composites [J ] . Journal of Mechanical Strength , 2024 , 46 ( 2 ): 416 - 423 . (in Chinese)
赵洪志 . SiC/TC4/UPE复合装甲的抗弹性能研究及数值模拟 [D ] . 哈尔滨 : 哈尔滨工程大学 , 2024 .
ZHAO H Z . Study and numerical simulation of the ballistic performance of SiC/TC4/UPE composite armor [D ] . Harb in:Harbin Engineering University, 2024 . (in Chinese)
许嘉杰 . 纤维复合材料组合靶板的抗弹体侵彻性能研究 [D ] . 广州 : 华南理工大学 , 2023 .
XU J J . Analysis on anti-penetration performance of hybrid fiber reinforced polymer targets [D ] . Guangzhou : South China University of Technology , 2023 . (in Chinese)
余毅磊 , 王晓东 , 任文科 , 等 . UHMWPE背板铺层角度对陶瓷复合靶板抗弹性的影响 [J ] . 北京理工大学学报 , 2022 , 42 ( 6 ): 612 - 619 .
YU Y L , WANG X D , REN W K , et al. Effect of UHMWPE back plate layering angle on the anti-elasticity of ceramic composite target plate [J ] . Transactions of Beijing Institute of Technology , 2022 , 42 ( 6 ): 612 - 619 . (in Chinese)
易鹏 , 李勇 , 朱德智 , 等 . “三明治”结构复合材料的超高速撞击行为 [J ] . 材料研究与应用 , 2022 , 16 ( 1 ): 130 - 135 .
YI P , LI Y , ZHU D Z , et al. Hypervelocity impact behaviors of sandwich structural composites [J ] . Materials Research and Application , 2022 , 16 ( 1 ): 130 - 135 . (in Chinese)
张林 , 陈斌 , 谭清华 , 等 . 陶瓷复合装甲抗14.5mm穿燃弹侵彻性能 [J ] . 兵工学报 , 2022 , 43 ( 4 ): 758 - 767 .
ZHANG L , CHEN B , TAN Q H , et al. Bullet-proof performance of ceramic composite armors against 14.5mm armor-piercing projectiles [J ] . Acta Armamentarii , 2022 , 43 ( 4 ): 758 - 767 . (in Chinese)
欧阳科峰 , 姚新 , 杨阳 , 等 . 迎弹面止裂层对陶瓷复合结构抗侵彻性能影响试验研究 [J ] . 防护工程 , 2021 , 43 ( 4 ): 6 - 10 .
OUYANG K F , YAO X , YANG Y , et al. Experimental study on the effect of front-side crack arrest layer on the anti-penetration performance of ceramic composite structures [J ] . Protective Engineering , 2021 , 43 ( 4 ): 6 - 10 . (in Chinese)
0
浏览量
0
下载量
0
CNKI被引量
- 网络PDF下载
- Meta-XML下载
- BibTeX下载
- Endnote下载
- RefMan 下载
- NoteExpress下载
- NoteFirst下载
关联资源
相关文章
相关作者
相关机构
- 地址:北京市海淀区车道沟10号中国兵工学会 邮编:100089
- 联系电话:010-68963060/68962718 传真:010-68963025 Email:bgxb@cos.org.cn
- 技术支持由北京北大方正电子有限公司提供 京ICP备05059581号-4
京公网安备11010802024360号 - 本系统建议在Chrome、 IE9+ 以上版本浏览器阅读本站内容,360浏览器请切换至极速模式
- Cookies帮助我们提供服务并提供个性化体验。使用本网站,即表示您同意我们使用Cookies
- 总访问量:49231 今日访问量:28