Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2

Miguel A. Escudero; Benoît G. Marinus; Karthik Depuru-Mohan; Véronique de Briey

doi:10.2514/6.2024-4525

Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2

Miguel A. Escudero, Benoît G. Marinus, Karthik Depuru-Mohan, Véronique de Briey

Cranfield University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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Abstract

The flow over ×1, ×1.5 and ×2 scaled NATO 5.56 mm M855 projectiles at Mach 2 and zero angle of attack was investigated numerically and experimentally. A 5 × 6 cm wind tunnel was used to measure surface pressure distributions across the three scales, to excellent agreement with CFD. The normalised pressure distributions were found to collapse on a single curve for all cases. The zero-yaw drag coefficients were calculated numerically and shown to decrease with increasing scale, however doing so before the effect of shock impingement on the projectile wake would be expected to be significant. Flow area blockage was shown to play an important role even for the smallest projectile scale, where the drag coefficient was still underpredicted relative to live range data from the literature. The numerical boundary layer profiles along the projectile length are analysed, and again, good agreement is observed between the three projectile sizes with some small discrepancies around the stagnation point.

Original language	English
Title of host publication	AIAA Aviation Forum and ASCEND, 2024
Publisher	American Institute of Aeronautics and Astronautics Inc, AIAA
ISBN (Print)	9781624107160
DOIs	https://doi.org/10.2514/6.2024-4525
Publication status	Published - 2024
Event	AIAA Aviation Forum and ASCEND, 2024 - Las Vegas, United States Duration: 29 Jul 2024 → 2 Aug 2024

Publication series

Name	AIAA Aviation Forum and ASCEND, 2024

Conference

Conference	AIAA Aviation Forum and ASCEND, 2024
Country/Territory	United States
City	Las Vegas
Period	29/07/24 → 2/08/24

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10.2514/6.2024-4525

20240520_AIAA2024PaperSUPERS3_SubmitAccepted author manuscript, 6.87 MB

Cite this

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title = "Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2",

abstract = "The flow over ×1, ×1.5 and ×2 scaled NATO 5.56 mm M855 projectiles at Mach 2 and zero angle of attack was investigated numerically and experimentally. A 5 × 6 cm wind tunnel was used to measure surface pressure distributions across the three scales, to excellent agreement with CFD. The normalised pressure distributions were found to collapse on a single curve for all cases. The zero-yaw drag coefficients were calculated numerically and shown to decrease with increasing scale, however doing so before the effect of shock impingement on the projectile wake would be expected to be significant. Flow area blockage was shown to play an important role even for the smallest projectile scale, where the drag coefficient was still underpredicted relative to live range data from the literature. The numerical boundary layer profiles along the projectile length are analysed, and again, good agreement is observed between the three projectile sizes with some small discrepancies around the stagnation point.",

author = "Escudero, {Miguel A.} and Marinus, {Beno{\^i}t G.} and Karthik Depuru-Mohan and {de Briey}, V{\'e}ronique",

note = "Publisher Copyright: {\textcopyright} 2024, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved.; AIAA Aviation Forum and ASCEND, 2024 ; Conference date: 29-07-2024 Through 02-08-2024",

year = "2024",

doi = "10.2514/6.2024-4525",

language = "English",

isbn = "9781624107160",

series = "AIAA Aviation Forum and ASCEND, 2024",

publisher = "American Institute of Aeronautics and Astronautics Inc, AIAA",

booktitle = "AIAA Aviation Forum and ASCEND, 2024",

}

Escudero, MA , Marinus, BG, Depuru-Mohan, K & de Briey, V 2024, Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2. in AIAA Aviation Forum and ASCEND, 2024. AIAA Aviation Forum and ASCEND, 2024, American Institute of Aeronautics and Astronautics Inc, AIAA, AIAA Aviation Forum and ASCEND, 2024, Las Vegas, United States, 29/07/24. https://doi.org/10.2514/6.2024-4525

Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2. / Escudero, Miguel A.; Marinus, Benoît G.; Depuru-Mohan, Karthik et al.
AIAA Aviation Forum and ASCEND, 2024. American Institute of Aeronautics and Astronautics Inc, AIAA, 2024. (AIAA Aviation Forum and ASCEND, 2024).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2

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AU - de Briey, Véronique

PY - 2024

Y1 - 2024

N2 - The flow over ×1, ×1.5 and ×2 scaled NATO 5.56 mm M855 projectiles at Mach 2 and zero angle of attack was investigated numerically and experimentally. A 5 × 6 cm wind tunnel was used to measure surface pressure distributions across the three scales, to excellent agreement with CFD. The normalised pressure distributions were found to collapse on a single curve for all cases. The zero-yaw drag coefficients were calculated numerically and shown to decrease with increasing scale, however doing so before the effect of shock impingement on the projectile wake would be expected to be significant. Flow area blockage was shown to play an important role even for the smallest projectile scale, where the drag coefficient was still underpredicted relative to live range data from the literature. The numerical boundary layer profiles along the projectile length are analysed, and again, good agreement is observed between the three projectile sizes with some small discrepancies around the stagnation point.

AB - The flow over ×1, ×1.5 and ×2 scaled NATO 5.56 mm M855 projectiles at Mach 2 and zero angle of attack was investigated numerically and experimentally. A 5 × 6 cm wind tunnel was used to measure surface pressure distributions across the three scales, to excellent agreement with CFD. The normalised pressure distributions were found to collapse on a single curve for all cases. The zero-yaw drag coefficients were calculated numerically and shown to decrease with increasing scale, however doing so before the effect of shock impingement on the projectile wake would be expected to be significant. Flow area blockage was shown to play an important role even for the smallest projectile scale, where the drag coefficient was still underpredicted relative to live range data from the literature. The numerical boundary layer profiles along the projectile length are analysed, and again, good agreement is observed between the three projectile sizes with some small discrepancies around the stagnation point.

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T3 - AIAA Aviation Forum and ASCEND, 2024

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Scale Effects on the Zero Yaw Drag Coefficient of Small Caliber Projectiles at Mach 2

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