Effect of the Leading-Edge Sweep on Wrap-Around Fins-Reference-Cited by-同舟云学术

Effect of the Leading-Edge Sweep on Wrap-Around Fins

Published:2022-03-07 Issue:1 Volume:14 Page:69-78
ISSN:2247-4528
Container-title:INCAS BULLETIN
language:en
Short-container-title:INCAS BULLETIN

Author:

MADHULAALASA K.¹,SHISHIR P.²,PRASAD P. Venkata Sai³,MOHANTA P. K.⁴,SAPKALE Swapnil⁵

Affiliation:

1. Department of Aeronautical Engineering, Institute of Aeronautical Engineering, Dundigal, Hyderabad-500 043, India, janukurma00@gmail.com

2. Department of Aeronautical Engineering, Institute of Aeronautical Engineering, Dundigal, Hyderabad-500 043, India, shishir.potineni@gmail.com

3. Department of Aeronautical Engineering, Institute of Aeronautical Engineering, Dundigal, Hyderabad-500 043, India, saipunugu.2000@gmail.com

4. Department of Aeronautical Engineering, Institute of Aeronautical Engineering, Dundigal, Hyderabad-500 043, India, prasanta.mohanta@gmail.com

5. Department of D&E, Bharat Dynamics Limited, Kanchanbagh, Hyderabad-500 058, India, segdne.bdl@bdl-india.in

Abstract

In this paper, the investigation was performed to determine the effect of leading-edge angle and leading-edge sweep on the aerodynamic coefficients of the projectile geometry and analyze the effect of roll moment on the fins at various operating conditions. A group of four models were considered, standard TTCP with the blunt leading edge and with 45° leading-edge along with modified TTCP with the blunt leading edge along with 30° sweep and with 45° leading-edge along with 30° sweep. The flow field solutions were obtained and considered as a function of roll moment coefficients, which are then compared to other numerical models and experimental results. The standard wrap-around TTCP models were subjected to varying velocities ranging from Mach 1.5 to 2.5. WAFs are considered a choice for spinning tube-launched projectiles because of their high packing factor and instant deployment. The computational grids have been built to accurately reflect the fin edge shape of the experimental model. The significant parameter of the WAF is the rolling moment, that was computed using CFD and compared with available experimental test data.

Publisher

INCAS - National Institute for Aerospace Research Elie Carafoli

Subject

Aerospace Engineering,Control and Systems Engineering

Reference11 articles.

1. [1] C. W. Dahike, The Aerodynamic Characteristics of Wrap-Around Fins at Mach Numbers of 0.3 to 3.0, U.S. Army Missile Command, TR RD-77-4, Alabama, 1976.

2. [2] C. Dahlke, The effect of wrap-around fins on aerodynamic stability and rolling moment variations, Army Missile Command Redstone Arsenal, Alabama, 1973.

3. [3] S. Arnan and B.-H. Benjamin, The Evaluation of the Rolling Moments Induced by Wraparound Fins, National Aeronautics and Space Administration, California, 1983.

4. [4] P. Seung-Kil Paek, P. Tae-Sang, B. Jae-Sung, L. In and H. K. Jang, Computation of Roll Moment for Projectile with Wraparound Fins Using Euler Equation, Journal of Spacecraft and Rockets, Vols. 36, No.1, pp. 53-58, 1999.

5. [5] M. Slobodan, Analysis of the Rolling Moment Coefficients of a Rockets with Wraparound Fins, Scientific-Technica , vol. 2, no. Review, pp. 30-37, 2006.

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