Optimal design of cylindrical shells for enhanced buckling stability: Application to supercavitating underwater vehicles

S. Ashley, Warp-drive Underwater, Scientific American, May 2001. Y.N. Savchenko, Supercavitation: problems and perspectives, in: Proceedings of the Fourth International Symposium on Cavitation, Pasadena, CA, June 20–23, 2001. R. Rand, R. Pratap, D. Ramani, J. Cipolla, I. Kirschner, Impact dynamics of a supercavitating underwater projectile, in: Proceedings of the ASME Design Engineering Technical Conferences (DETC), Sacramento, CA, September 14–17, 1997. Kirschner, 2002, Control strategies for supercavitating vehicles, J. Vib. Control, 8, 219, 10.1177/107754602023818 A.D. Vasin, Some problems of supersonic cavitation flows, in: Proceedings of the Fourth International Symposium on Cavitation, Pasadena, CA, June 20–23, 2001. Ruzzene, 2003, Impact dynamics of stiffened elastic supercavitating underwater vehicles, J. Vib. Control, 10, 243, 10.1177/1077546304035607 Ruzzene, 2004, Dynamic buckling stability of stiffened supercavitating vehicles, Int. J. Solids Struct., 41, 1039, 10.1016/j.ijsolstr.2003.10.008 Ruzzene, 2004, Non-axisymmetric buckling of stiffened shells: static and dynamic analysis, Comput. Struct., 82, 257, 10.1016/j.compstruc.2003.09.003 Alyanak, 2005, Structural response and optimization of a supercavitating torpedo, Finite Elements Anal. Des., 41, 563, 10.1016/j.finel.2004.10.005 Bolotin, 1964 Bathe, 1996 Ahmad, 1970, Analysis of thick and thin shell structures by curved finite elements, Int. J. Numer. Methods Eng., 2, 419, 10.1002/nme.1620020310 Flugge, 1973 Cook, 2002 E.A. Euteneuer, Planing forces acting on a supercavitating torpedo, M.S. Thesis, The University of Minnesota, 2002.