The Numerical Simulation of the Vertical Water Entry Process of High Speed Projectile with Small Angle of Attack

Based on the numerical simulation method, the high speed vertical water entry process of projectile moving at 1000m/s with small angle of attack is studied. By analyzing the cavity configuration and hydrodynamic characteristics of the process, the influences of the small entry angle on the water ent...

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Veröffentlicht in:	Journal of physics. Conference series 2021-04, Vol.1865 (4), p.42124
Hauptverfasser:	Li, Ruijie, Wang, Rui, Yao, Zhong, Sun, Yanhu, Wang, Jiawen
Format:	Artikel
Sprache:	eng
Schlagworte:	Angle of attack Configurations High speed Physics Pitching moments Projectiles Simulation Stability
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container_title	Journal of physics. Conference series
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creator	Li, Ruijie Wang, Rui Yao, Zhong Sun, Yanhu Wang, Jiawen
description	Based on the numerical simulation method, the high speed vertical water entry process of projectile moving at 1000m/s with small angle of attack is studied. By analyzing the cavity configuration and hydrodynamic characteristics of the process, the influences of the small entry angle on the water entry stability process are obtained. The simulation results indicate that the projectile’s ballistic can achieve relative stable state when the water entry angle is less than 0.5°, otherwise the water entry cavity can be pierced by tail fin. The pierced size tend to increase with the increased water entry angle as well as the projectile’s ballistic become unstable. In addition, the rotation of the projectile owing to pitching moment has little effect on cavity configuration and water entry stability.
doi_str_mv	10.1088/1742-6596/1865/4/042124
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By analyzing the cavity configuration and hydrodynamic characteristics of the process, the influences of the small entry angle on the water entry stability process are obtained. The simulation results indicate that the projectile’s ballistic can achieve relative stable state when the water entry angle is less than 0.5°, otherwise the water entry cavity can be pierced by tail fin. The pierced size tend to increase with the increased water entry angle as well as the projectile’s ballistic become unstable. 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subjects	Angle of attack Configurations High speed Physics Pitching moments Projectiles Simulation Stability
title	The Numerical Simulation of the Vertical Water Entry Process of High Speed Projectile with Small Angle of Attack
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