Analysis of ground distance effect on hypervelocity jet flow and stability of projectile in half-space

Li, Zijie; Wang, Hao

doi:10.1063/5.0078853

Cited by 6 publications

(1 citation statement)

References 13 publications

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“…The muzzle jet poses a series of aerodynamic challenges, characterized by complex flow phenomena such as shock/shock interference, the presence of strong moving shock waves, and the formation of robust vortices within the flow field [1] [2]. Simultaneously, the impact of the muzzle jet on the projectile affects the stability of its motion.…”

Section: Introductionmentioning

confidence: 99%

Shock Wave Interference Characteristics in Double-Tube Jets Impacting on Moving Bodies

Li,

Wang

2024

Preprint

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In an effort to investigate the interference characteristics of shock waves and the motion patterns of the moving body when subjected to simultaneous impacts from double-tube muzzle jets, we conducted numerical simulation research on the flow field structure of a 120 mm double-tube muzzle jet using dynamic grid technology. Our research findings offer a clear description of the interaction process between the two jets and reveal the evolution patterns of shock wave morphology, as well as their interactions and mixing. The results demonstrate that when double-tube jets simultaneously impact moving bodies, the two jets strongly interfere with each other, restraining the free expansion of the jet. Consequently, shock-shock collisions occur, impeding jet development and causing the shock wave to alter its motion direction, concentrating more around the center of the jet. Furthermore, the interaction between intense shock waves and weaker vortices leads to the disappearance of vortices that would typically be observed. Additionally, due to shock-shock collisions, multiple pairs of reflected shock waves and numerous triple points emerge. Moreover, the complex flow field structure enhances the thrust experienced by the moving body, resulting in significant alterations to its key motion parameters. This increase in initial disturbances impacts the operational stability of the moving body. The research outcomes presented in this article provide a crucial theoretical foundation for enhancing the understanding of muzzle jet phenomena and for the practical application of double-tube jet technology in engineering contexts.

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Section: Introductionmentioning

confidence: 99%

Shock Wave Interference Characteristics in Double-Tube Jets Impacting on Moving Bodies

Li,

Wang

2024

Preprint

Self Cite

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Effects of different constrained boundary structures on the evolution of shock waves and vortexes in muzzle jets

Li,

Wang,

Chen

et al. 2023

J Mech Sci Technol

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Numerical study of the influence of different water depths on the muzzle flow characteristics of machine gun

Sun

Han

et al. 2022

AIP Advances

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The mathematical and physical models of the underwater submerged gun are established to study the flow field distribution characteristics of the gun muzzle at different water depths. The Schnerr–Sauer cavitation model and the realizable k– ω transport turbulence model based on the Reynolds-averaged Navier–Stokes method are employed. The muzzle flow field for the 12.7 mm gun that is submerged launched underwater is numerically simulated by combining user-defined functions and overlapping mesh technology. The flow characteristics of the density, velocity, and pressure fields at the gun muzzle at different water depths are analyzed in detail. The results show that the muzzle flow morphology depends mainly on the pressure at different water depths. The muzzle flow field distribution in deep water is more flat due to the high value of water pressure, which limits the expansion of the muzzle gas, and the range of the velocity field of the muzzle flow field at 100 m is one time smaller than that at 1 m.

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Analysis of ground distance effect on hypervelocity jet flow and stability of projectile in half-space

Cited by 6 publications

References 13 publications

Shock Wave Interference Characteristics in Double-Tube Jets Impacting on Moving Bodies

Shock Wave Interference Characteristics in Double-Tube Jets Impacting on Moving Bodies

Effects of different constrained boundary structures on the evolution of shock waves and vortexes in muzzle jets

Numerical study of the influence of different water depths on the muzzle flow characteristics of machine gun

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