Research on the process of vertical water entry experiment of truncated cone-shaped projectile

Zhiyong Zhang
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Abstract

In order to study the influence of the diameter and velocity of the truncated head on the cavitation and motion characteristics of the projectile when it enters the water vertically, based on the high-speed camera method, the contrast experiment of the different diameter of the truncated head is carried out, and the influence law of the diameter and velocity of the head on the cavitation and motion velocity is obtained. The experimental results show that the velocity change law of the projectile in the deep closed state is basically the same, and the velocity change law in the process of turning the surface closed state begins to change; With the increase of the initial velocity of the projectile, the earlier the surface closure occurs, the earlier the separation of the cavitation from the tail cavity is, and the later the tail cavity contacts with the liquid surface; In the stage of surface closure, the general velocity rule of the projectile is: first increasing then decreasing, then increasing after smooth transition. When the velocity is high, the law of velocity changes to continuous decline.
截顶锥形弹丸垂直入水实验过程研究
为了研究截头直径和速度对弹丸垂直入水时空化和运动特性的影响,基于高速摄像方法,进行了不同直径截头的对比实验,得到了截头直径和速度对空化和运动速度的影响规律。实验结果表明,弹丸在深层闭合状态下的速度变化规律基本相同,在转入表层闭合状态过程中的速度变化规律开始发生变化;随着弹丸初速度的增加,表层闭合发生的时间越早,空化与尾腔分离的时间越早,尾腔与液面接触的时间越晚;在表层闭合阶段,弹丸的一般速度规律为:先增大后减小,平稳过渡后再增大。当速度较高时,速度规律变为持续下降。
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