[1] Techet A H, Truscott T T. Water entry of spinning hydrophobic and hydrophilic spheres[J]. Journal of Fluids and Structures, 2011, 27(S5/S6):716-726. [2] Bergmann R, Devaraj V D M, Gekle S, et al. Controlled impact of a disk on a water surface:cavity dynamics[J]. Journal of Fluid Mechanics, 2009, 633: 381-409. [3] Duclaux V, Caillé F, Duez C, et al. Dynamics of transient cavities[J]. Journal of Fluid Mechanics, 2007, 591:1-19. [4] Sudo S, Takayanagi H, Kamiyama S. Water entry of a magnetic fluid coated sphere[J]. Journal of Magnetism and Magnetic Materials, 2011, 323(10):1348-1353. [5] Aristoff J M, Truscott T T, Techet A H, et al. The water entry of decelerating spheres[J]. Physics of Fluids, 2010, 22(3):417-422. [6] Truscott T T, Techet A H. Water entry of spinning spheres[J]. Journal of Fluid Mechanics, 2009, 625:135-165. [7] 朱珠,袁绪龙,刘维. 柱体大攻角入水弹道建模与仿真[J]. 火力与指挥控制, 2015, 40(2):13-23. ZHU Zhu, YUAN Xu-long, LIU Wei. On modeling and simulation of cylinder dropping in water with high angle of attack[J]. Fire Control & Command Control, 2015, 40(2):13-23. (in Chinese) [8] Worthington A M. A study of splashes[M]. London: Longmans, Green,1908. [9] May A. Effect of surface condition of a sphere on its water entry cavity[J]. Founal of Applied Physics, 1951, 22(10):1219-1222. [10] Duez C, Ybert C, Clanet C, et al. Making a splash with water repellency[J]. Nature Physics, 2007, 3(3):180-183. [11] Lee J. Chapter 1.2-surface tension and contact angle[M]∥Seetharaman S. Treatise on Process Metallurgyn. Amsterdam, NED:Elsevier, 2014:11-18. [12] Brackbill J U, Kothe D B, Zemach C. A continuum method for modeling surface tension[J]. Journal of Computational Physics, 1992, 100(2):335-354. [13] Truscott T T, Techet A H. A spin on cavity formation during water entry of hydrophobic and hydrophilic spheres[J]. Physics of Fluids,2009, 21(12):429-439. [14] And A A K, Pukhnachov V V. Initial stages of water impact[J].Annual Review of Fluid Mechanics, 2003, 20(2):159-185. [15] Oliver J. Water entry and related problems[D]. Oxford, UK:Oxford University, 2002. [16] Eggers J. Hydrodynamic theory of forced dewetting[J]. Physical Review Letters, 2004, 93(9): 094502. |