Study on damage characteristics of typical tank targets under shock wave load

Dongjiang Zhang; Rui Yu; Yongjin Zhao; Yunhui Hou; Chunxu Pang; Xuncheng Guo

doi:10.1117/12.2675175

25 May 2023 Study on damage characteristics of typical tank targets under shock wave load

Dongjiang Zhang, Rui Yu, Yongjin Zhao, Yunhui Hou, Chunxu Pang, Xuncheng Guo

Proceedings Volume 12636, Third International Conference on Machine Learning and Computer Application (ICMLCA 2022); 126363Y (2023) https://doi.org/10.1117/12.2675175
Event: Third International Conference on Machine Learning and Computer Application (ICMLCA 2022), 2022, Shenyang, China

Abstract

In order to study the damage characteristics of typical tank targets under shock wave load, a full-scale finite element model of tank targets was established by using AUTODYN software. By changing the charge and the position of detonation point, eight simulated working conditions were set up to obtain the damage law of tank armor and internal key components during the process of explosion damage to typical tank targets. The research results show that when the charge explodes on the right side of the tank, the displacement deformation of tank armor occurs at the position corresponding to the explosion center level, and the deformation at the turret joint decreases with the increase of detonation distance. Judging from the impact vibration of the people in the car, all of them are severely damaged, and the impact vibration of the driver is the largest. Because the gunner and the captain are in the turret, the impact vibration is smaller than that of the driver. The fire control computer has great impact vibration response under different working conditions.

Citation Download Citation

Dongjiang Zhang, Rui Yu, Yongjin Zhao, Yunhui Hou, Chunxu Pang, and Xuncheng Guo "Study on damage characteristics of typical tank targets under shock wave load", Proc. SPIE 12636, Third International Conference on Machine Learning and Computer Application (ICMLCA 2022), 126363Y (25 May 2023); https://doi.org/10.1117/12.2675175

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