[1] ZHANG A M, WANG Y, WEN X Y, et al. Review of the dynamics of the underwater explosion bubble[J]. Journal of Ship Mechanics, 2009, 13(5):828-840. [2] WARDLAW A B, LUTON J A. Fluid-structure interaction mechanisms for close-in explosions[J]. Shock and Vibration, 2000, 7(5):265-275. [3] LIU T G, KHOO B C, XIE W F. Isentropic one-fluid modelling of unsteady cavitating flow[J]. Journal of Computational Physics, 2004, 201(1):80-108. [4] ZHENG J, YU K P, WANG J F, et al. SPH for developing supercavity induced by high speed underwater body[J]. Chinese Journal of Computational Physics, 2014, 31(1):27-32. [5] LIU T G, KHOO B C, YEO K S. Ghost fluid method for strong shock impacting on material interface[J]. Journal of Computational Physics, 2003, 190(2):651-681. [6] DING Y, YUAN L, YANG L. An explicit-implicit algorithm for ghost fluid method[J]. Chinese Journal of Computational Physics, 2013, 30(1):27-34. [7] TANG H S, SOTIROPOULOS F. A second-order Godunov method for wave problems in coupled solid-water-gas systems[J]. Journal of Computational Physics, 1999, 151(2):790-815. [8] XIE W F, YOUNG Y L, LIU T G, et al. Dynamic response of deformable structures subjected to shock load and cavitation reload[J]. Computational Mechanics, 2007, 40(4):667-681. [9] LIU T G, XIE W F, WANG C, et al. Effects of surface curvature on cavitation evolution and reloading[J]. Chinese Journal of Theoretical and Applied Mechanics, 2010, 42(6):1156-1163. [10] LIU T G, HO J Y, KHOO B C, et al. Numerical simulation of fluid-structure interaction using modified ghost fluid method and Naviers equations[J]. Journal of Scientific Computing, 2008, 36(1):45-68. [11] LIU T G, CHOWDHURY A W, KHOO B C. The modified ghost fluid method applied to fluid-elastic structure interaction[J]. Advances in Applied Mathematics and Mechanics, 2011, 3(5):611-632. [12] XU L, LIU T G. Modified ghost fluid method as applied to fluid-plate interaction[J]. Advances in Applied Mathematics and Mechanics, 2014, 6(1):24-48. [13] WANG J H, CHEN F, LIU H, et al. A shock-pinned random projection method for multi-directional stiff detonation capturing[J]. Chinese Journal of Computational Physics, 2014, 31(6):648-658. |