高速射弹小角度入水弹道特性分析  

作　　者：祁晓斌 刘喜燕 施瑶[1] 王瑞[2] 袁绪龙[1] QI Xiaobin;LIU Xiyan;SHI Yao;WANG Rui;YUAN Xulong(School of Marine Science and Technology,Northwestern Polytechnical University,Xi′an 710072,China;Northwest Institute of Mechanical and Electrical Engineering,Xianyang 712099,China)

机构地区：[1]西北工业大学航海学院,陕西西安710072 [2]西北机电工程研究所,陕西咸阳712099

出　　处：《数字海洋与水下攻防》2023年第3期293-299,共7页Digital Ocean & Underwater Warfare

基　　金：国家自然科学基金“大型回转体高速入水多介质耦合力学效应及降载机理研究”(U21B2055);“单筒多航行体齐射出水空化流动干扰特性研究”(52171324)。

摘　　要：为了研究高速射弹小角度入水空泡发展与弹道特性,开展了入水角度为20°时的高速入水试验研究。高速射弹由空气炮加速获得入水初速,利用高速摄像实现对入水空泡形态的记录,由内测单元记录射弹入水过程的运动参数。试验发现入水初期形成了光滑透明的空泡,射弹以超空泡状态近直线弹道运动;由于横滚角速度和俯仰角速度的存在,射弹入水后形成了尾拍+旋转滑水耦合运动特征。基于VOF多相流模型和空化模型,结合动网格技术,对试验工况进行数值仿真。结果表明:仿真获得的空泡形态、弹道特性与试验结果吻合度高,该方法可有效预报入水弹道。In order to study the trajectory characteristics of shallow angle water entry for high-speed projectile,the experimental study is carried out when the water entry angle is 20°.An air cannon is set up to provide the initial velocity of high-speed projectile.The flow pattern in water entry is captured by a high-speed video camera,and the variations of the parameters are recorded by a built-in measuring system.The experiment results show that smooth and transparent bubbles are formed at the initial stage of water entry,and the projectile moves in a liner trajectory in a supercavitation state.When entering water,due to the existence of roll angular velocity and pitch angular velocity,the projectile forms motion coupled with tail beat and rotation skiing.Based on the VOF multiphase flow model and cavitation model,combined with the dynamic grid technology,the numerical simulation of the experimental conditions is carried out.The results indicate that the cavitation shape and trajectory characteristics obtained by simulation are in good agreement with the experiment result,and this method can effectively predict the water entry trajectory.

关 键 词：超空泡射弹 小角度入水 弹道特性 尾拍运动 试验研究 

分 类 号：TJ391[兵器科学与技术—火炮、自动武器与弹药工程]