起爆
偏转(物理)
机械
圆柱
水下爆炸
结构工程
水下
物理
半径
爆炸物
冲击波
经典力学
几何学
工程类
地质学
数学
有机化学
计算机科学
化学
计算机安全
海洋学
作者
Wei Han,Yifan Dong,Rennian Li,Yukun Zhang,Lu Bai
出处
期刊:AIP Advances
[American Institute of Physics]
日期:2024-02-01
卷期号:14 (2)
被引量:7
摘要
The damage characteristics of a ribbed cylinder in the torpedo compartment shell is explored. An arbitrary Lagrange–Euler method is used to establish the fluid–structure interaction model for analyzing the ribbed cylinder’s response under near-field underwater explosion while in motion. The influence of detonation direction and standoff distance on the dynamic response of the moving ribbed cylinder is considered. The investigation reveals that the cylinder’s motion causes an uneven distribution of bubble load and secondary load, stemming from cavitation zone collapse, on the shell. This imbalance leads to a notable deflection difference between the shell’s front and rear sections, with maximum deformation concentration at the rear. In addition, in comparison to the lateral condition, static state analysis shows reduced average deflection and increased maximum deflection when the explosion point is above or below the shell, while in the sailing state, both average and maximum deflections increase. Notably, when the charge radius is between 6 and 15 times, the average damage rate in the sailing state consistently remains lower than that in the stationary state, while the maximum damage rate is higher at a specific burst distance.
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