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铝合金框架结构的弹体穿击损伤特性
引用本文:蔡建纲,谭剑锋,于领军,史瑞鹏,夏云松. 铝合金框架结构的弹体穿击损伤特性[J]. 科学技术与工程, 2021, 21(21): 8757-8764. DOI: 10.3969/j.issn.1671-1815.2021.21.005
作者姓名:蔡建纲  谭剑锋  于领军  史瑞鹏  夏云松
作者单位:南京工业大学机械与动力工程学院,南京211816;陆军航空兵学院航空机械工程系,北京101123
摘    要:针对直升机机身框架易受子弹弹击导致损伤问题,有必要开展机身铝合金框架结构的子弹穿击损伤特性研究.基于ABAQUS软件平台,采用修正后的Johnson-Cook模型,建立机身铝合金框架弹伤冲击的显示动力学模型,研究子弹弹头倾角和子弹材料等参数对铝合金框架的损伤特性影响.结果 表明:弹头倾角影响子弹穿透能力,但该影响存在临界值,到达临界值前,子弹穿透能力随着倾角的减小而增大;到达临界值后,继续减小倾角不再增大穿透能力;同时随着倾角的减小,框架的损伤面积先增大后减小,倾角为45°时损伤面积最大.子弹材料影响子弹的强度和刚度,影响子弹的穿透能力和破坏能力,计算结果表明铜质子弹的穿透能力大于钢质子弹,钢质子弹破坏能力大于铜质子弹.

关 键 词:子弹穿透  铝合金框架  失效形式  显示动力学  有限元分析  损伤特性
收稿时间:2020-12-02
修稿时间:2021-07-07

Analysis of bullet penetration damage characteristics of aluminum alloy frame structure
Cai Jiangang,Tan Jianfeng,Yu Lingjun,Shi Ruipeng,Xia Yunsong. Analysis of bullet penetration damage characteristics of aluminum alloy frame structure[J]. Science Technology and Engineering, 2021, 21(21): 8757-8764. DOI: 10.3969/j.issn.1671-1815.2021.21.005
Authors:Cai Jiangang  Tan Jianfeng  Yu Lingjun  Shi Ruipeng  Xia Yunsong
Affiliation:School of Mechanical and Power Engineering,Nanjing Tech University
Abstract:In view of the problem that the main frame of the helicopter fuselage is vulnerable to bullet damage, it is necessary to carry out the research on the bullet penetration damage characteristics of the aluminum alloy main frame structure of the fuselage. To this end, based on the ABAQUS software platform, the revised Johnson-Cook model is used to establish a dynamic model showing the impact of the main frame of a certain helicopter fuselage, and to study the impact of the inclination angle of the bullet and the material of the bullet on the aluminum alloy main body of the helicopter. Damage characteristics of the frame. The results show that the inclination angle of the warhead affects the penetration ability of the bullet, but there is a critical value for this effect. Before reaching the critical value, the penetration ability of the bullet increases with the decrease of the inclination angle. After reaching the critical value, the inclination angle continues to decrease and no longer increases the penetration ability. At the same time, as the inclination angle decreases, the damage area of the main frame first increases and then decreases. The damage area is the largest when the inclination angle is 45°. The bullet material affects the strength and stiffness of the bullet, and affects the penetrating ability and destructive ability of the bullet. The calculation results show that the penetrating ability of the copper bullet is greater than that of the steel bullet, and the destructive ability of the steel bullet is greater than that of the copper bullet.
Keywords:bullet penetration  aluminum alloy frame  failure mode  display dynamics  Finite element  damage characteristics
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