Numerical Analysis for the Pressure Distribution along a Typical Fin-stabilized Missile
Moalla, M., Saleh, S., Khalil, M. (2025). Numerical Analysis for the Pressure Distribution along a Typical Fin-stabilized Missile. EKB Journal Management System, 21(21), 1-9. doi: 10.1088/1742-6596/2616/1//asat.2025.453552
Mahmoud A. Moalla; Sherif Saleh; Mostafa Khalil. "Numerical Analysis for the Pressure Distribution along a Typical Fin-stabilized Missile". EKB Journal Management System, 21, 21, 2025, 1-9. doi: 10.1088/1742-6596/2616/1//asat.2025.453552
Moalla, M., Saleh, S., Khalil, M. (2025). 'Numerical Analysis for the Pressure Distribution along a Typical Fin-stabilized Missile', EKB Journal Management System, 21(21), pp. 1-9. doi: 10.1088/1742-6596/2616/1//asat.2025.453552
Moalla, M., Saleh, S., Khalil, M. Numerical Analysis for the Pressure Distribution along a Typical Fin-stabilized Missile. EKB Journal Management System, 2025; 21(21): 1-9. doi: 10.1088/1742-6596/2616/1//asat.2025.453552

Numerical Analysis for the Pressure Distribution along a Typical Fin-stabilized Missile

International Conference on Aerospace Sciences and Aviation Technology
Volume 21, Issue 21, September 2025, Pages 1-9    PDF (1.65 M)
Document Type: Original Article
DOI: 10.1088/1742-6596/2616/1//asat.2025.453552
Authors
Mahmoud A. Moalla* ; Sherif Saleh; Mostafa Khalil
Aerospace Engineering Department, Military Technical College, Cairo, 11776, Egypt.
Abstract
Realizing the aerodynamic forces exerted on the missile structure for fin-stabilized missiles requires a good estimation of the pressure distribution along the missile body. This distribution has a direct impact on its structure, stability, and controllability, providing an essential pressure estimation to missile design. This study is performed by applying numerical calculations on a fin-stabilized missile with a slenderness ratio of 16.2. A detailed 3D model of the missile and its computational domain is constructed. The numerical simulations are performed by using the commercial software ANSYS Fluent. The results are validated with experimental wind tunnel data. The study has deep insight into how the pressure distribution along the missile airframe behaves at 4° and 8° angles of attack for Mach numbers 2 and 3.55. Finally, the effects of altitude impact on the pressure are also discussed, providing useful information on how the missile performs under different flight conditions.
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