Comparative study on the oblique water-entry of high-speed projectile based on rigid-body and elastic-plastic body model  

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作  者:Xiangyan Liu Xiaowei Cai Zhengui Huang Yu Hou Jian Qin Zhihua Chen 

机构地区:[1]National Key Laboratory of Transient Physics,Nanjing University of Science and Technology,Nanjing,210094,China [2]National Key Laboratory of Hydrodynamics,China Ship Scientific Research Center,Wuxi,214082,China [3]School of Electrical Engineering and Automation,Nantong University,Nantong,226019,China

出  处:《Defence Technology(防务技术)》2025年第4期133-155,共23页Defence Technology

基  金:supported by the Postgraduate Research&Practice Innovation Program of Jiangsu Province(Grant No.KYCX24_0714).

摘  要:To examine the similarities and differences in the evolution of cavity,wetting and dynamics of a highspeed,oblique water-entry projectile with different positive angles of attack,a comparative analysis has been conducted based on the numerical results of two mathematical models,the rigid-body model and fluid-structure interaction model.In addition,the applicable scope of the above two methods,and the structural response characteristics of the projectile have also been investigated.Our results demonstrate that:(1)The impact loads and angular motion of the projectile of the rigid-body method are more likely to exhibit periodic variations due to the periodic tail slap,its range of positive angles of attack is about a<2°.(2)When the projectile undergone significant wetting,a strong coupling effect is observed among wetting,structural deformation,and projectile motion.With the applied projectile shape,it is observed that,when the projectile bends,the final wetting position is that of Part B(cylinder of body).With the occurrence of this phenomenon,the projectile ballistics become completely unstable.(3)The force exerted on the lower surface of the projectile induced by wetting is the primary reason of the destabilization of the projectile trajectory and structural deformation failure.Bending deformation is most likely to appear at the junction of Part C(cone of body)and Part D(tail).The safe angles of attack of the projectile stability are found to be about a≤2°.

关 键 词:Fluid-structure interaction Rigid-body model Elastic-plastic model Structural deformation Impact loads Structural safety of projectile 

分 类 号:O35[理学—流体力学]

 

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