What question did this study set out to answer?

This study aims to analyze the influence of initial radial spacing on the water entry dynamics of two asynchronous projectiles.

May 8, 2026

Flow Field Interference Characteristics and Motion Behavior of Two Asynchronous Projectiles during Shallow-Angle Water Entry

Puntos clave

This study aims to analyze the influence of initial radial spacing on the water entry dynamics of two asynchronous projectiles.
Established a numerical model using computational fluid dynamics.
Evaluated effects of varying dimensional spacing (S=4, 6, 8, 10) on water entry.
Analyzed interaction characteristics during shallow-angle water entry.
When S≤6, projectile 2 enters the cavity created by projectile 1, causing significant deformation and trajectory overlap.
For S=8, splash disturbances notably reduce the motion stability of projectile 2.
At S=10, projectile 2 maintains better motion stability during water entry.

Resumen

本文基于计算流体力学(cfd)方法,建立了双弹异步入水数值模型，系统研究了初始径向间距(无量纲参数s=4、6、8、10)对异步并联圆柱体小角度入水过程的影响。结果表明：间距参数s通过改变后入水弹体(弹2)的入水位置，主导了流场演化与运动特性。当s≤6时，弹2进入先入水弹体(弹1)的空泡内部入水，导致弹1空泡发生剧烈挤压变形，并引发两弹反向偏转及偏移，最终轨迹交叉并发生碰撞，碰撞时刻随s增大而延迟。当s≥8时，弹2穿越弹1产生的喷溅扰动区后，在弹1空泡外部入水。其中，s=8时强烈的喷溅扰动显著降低了弹2的运动稳定性；而s=10时弹2运动稳定性较好。本研究为多体入水系统的间距优化设计提供了理论依据。

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