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International Journal of Aerospace Engineering
Volume 2014, Article ID 478534, 11 pages
Research Article

Numerical Calculation of Effect of Elastic Deformation on Aerodynamic Characteristics of a Rocket

Institute of Launch Dynamics, Nanjing University of Science and Technology, Nanjing 210094, China

Received 1 September 2013; Revised 28 December 2013; Accepted 2 January 2014; Published 17 February 2014

Academic Editor: Linda L. Vahala

Copyright © 2014 Laith K. Abbas et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Linked References

  1. J. Sahu, H. L. Edge, K. R. Heavey, and E. N. Ferry, “Computational fluid dynamics modeling of multi-body missile aerodynamic interference,” Tech. Rep. ARL-TR-1765, U.S. Army Research Laboratory, Aberdeen Proving Ground, Md, USA, 1998. View at Google Scholar
  2. J. DeSpirito and K. R. Heavey, “CFD computation of magnus moment and roll damping moment of a spinning projectile,” in Proceedings of the AIAA Atmospheric Flight Mechanics Conference, pp. 139–154, August 2004. View at Scopus
  3. J. Despirito and P. Plostins, “CFD prediction of M910 projectile aerodynamics: unsteady wake effect on magnus moment,” in Proceedings of the AIAA Atmospheric Flight Mechanics Conference, pp. 867–884, August 2007. View at Scopus
  4. B. P. Danowsky, P. M. Thompson, C. Farhat, T. Lieu, C. Harris, and J. Lechniak, “A complete aeroservoelastic model: incorporation of oscillation-reduction- control into a high-order CFD/FEM fighter aircraft model,” in Proceedings of the AIAA Atmospheric Flight Mechanics Conference, August 2009. View at Scopus
  5. J. D. Baum, H. Luo, and E. L. Mestreau, “Recent developments of a coupled CFD/CSD methodology,” in Computational Science, vol. 2073 of Lecture Notes in Computer Science, pp. 1087–1097, 2001. View at Google Scholar
  6. J. Gai and F. Liu, “Static aero-elastic computation with a coupled CFD and CSD method,” Tech. Rep. AIAA-2000-0717, 2000. View at Google Scholar
  7. E. Başkut and A. Akgül, “Development of a coupling procedure for static aeroelastic analyses,” Scientific Technical Review, vol. 61, no. 3-4, pp. 39–48, 2011. View at Google Scholar
  8. E. L. Blades and J. C. Newman, “Aeroelastic effects of spinning missiles,” in Proceedings of the 48th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, pp. 6599–6618, April 2007. View at Scopus
  9. D. Fan, Investigations of grid fins aerodynamic shape design and roll characteristics of wing-body configuration [Ph.D. thesis], Nanjing University of Science and Technology, Nanjing, China, 2011, (Chinese).
  10. Z. T. Chen and Q. Sun, “Applications of inertia relief method in aircraft static aero-elasticity,” Flight Dynamics, vol. 26, no. 5, pp. 71–74, 2008 (Chinese). View at Google Scholar
  11. L. Liao, “A study of inertia relief analysis,” Tech. Rep. AIAA 2011-2002, 2011. View at Google Scholar
  12. J. R. Wright and J. E. Cooper, Introduction to Aircraft Aeroelasticity and Loads, John Wiley & Sons, 2007.
  13. F. R. Menter, “Zonal two equation k-ω turbulence models for aerodynamic flows,” Tech. Rep. AIAA-93-2906, 1993. View at Google Scholar
  14. F. R. Menter, “Two-equation eddy-viscosity turbulence models for engineering applications,” AIAA journal, vol. 32, no. 8, pp. 1598–1605, 1994. View at Google Scholar · View at Scopus
  15. F. M. White, Viscous Fluid Flow, McGraw-Hill, New York, NY, USA, 2nd edition, 1991.
  16. X. G. Song, L. Cai, and H. Zhang, ANSYS Fluid-Structure Coupling Analysis and Engineering Examples, Water Power Press, Beijing, China, 2012, (Chinese).
  17. FLUENT 14.5 User’s Guide, 2013.