[5] May A, Woodhull J C. The virtual mass of a sphere entering water vertically [J]. Journal of Applied Physics, 1950, 21(12): 1285- 1289.
[2]
[6] May A. Effect of surface condition of a sphere on its water-entry cavity [J]. Journal of Applied Physics, 1951, 22(10): 1219-1222.
[3]
[7] ZHAO R, Faltinsen O. Water entry of two-dimensional bodies [J]. Journal of Fluid Mechanics, 1993, 246: 593-612.
[4]
[8] Semenov A, Iafrati A. On the nonlinear water entry problem of
[5]
[1] Worthington A M, Cole R S. Impact with a liquid surface studied by the aid of instantaneous photography[J]. Philosophical Transactions of the Royal Society, 1900, 194(A): 175-200.
[6]
[2] May A. Water entry and the cavity-running behavior of missiles,AD A020429[R]. Dayton: ASTIA, 1975.
[7]
[3] Gilbarg D, Anderson R A. Influence of atmospheric pressure on the phenomena accompanying the entry of spheres into water [J]. Journal of Applied Physics, 1948, 9(2): 127-139.
[8]
[4] May A, Woodhull J C. Drag coefficients of steel spheres entering water vertically [J]. Journal of Applied Physics, 1948, 19(12): 1109-1121.
[9]
[9] Sun S L, Wu G X. Oblique water entry of a cone by a fully three-dimensional nonlinear method [J]. Journal of Fluids and Structures, 2013, 42: 313-332.
[10]
[10] Lundstrom E A, Fung W K. Fluid dynamic analysis of hydraulic ram Ⅲ, AD 031644[R]. Dayton: ASTIA, 1976.
[11]
[11] Lee M, Longoria R G, D E Wilson. Cavity dynamics in high-speed water entry [J]. Physics of Fluids, 1997, 9(3): 540-550.
