| [1] | Luo H, Joseph D B. A Hybrid Interface Capturing Method for Compressible Multi-Fluid Flows on Unstructured Grids [R]. AIAA 96-0416, 1996. |
| [2] | Hirt C W, Nichols B D. Volume of Fluid (VOF) Method for the Dynamics of Free Boundaries [J]. J Comput Phys, 1981, 39: 201-225. |
| [3] | Koren B. Riemann-Problem and Level-Set Approaches for Homentropic Two-Fluid Flow Computations [J]. J Comput Phys, 2002, 181: 654-674. |
| [4] | Fedkiw R P, Aslam T, Merriman B, et al. A Non-Oscillatory Eulerian Approach to Interfaces in Multimaterial Flows(The Ghost Fluid Method) [J]. J Comput Phys, 1999, 152: 457-492. |
| [5] | Chen Y B, Lin Z. Conservative High Resolution Scheme in Multicomponent Calculations [J]. Chinese Journal of Computaional Physics, 2004, 21(2): 99-105. (in Chinese) |
| [6] | 陈艺冰, 林忠. 多介质流体力学计算的守恒型高分辨率格式 [J]. 计算物理, 2004, 21(2): 99-105. |
| [7] | Abgrall R. How to Prevent Pressure Oscillations in Multicomponent Flow Calculations(A Quasi Conservative Approach) [J]. J Comput Phys, 1996, 125: 150-160. |
| [8] | Abgrall R, Karni S. Computations of Compressible Multifluids [J]. J Comput Phys, 2001, 169: 594-623. |
| [9] | Bai J S, Chen S H, Li P, et al. High Resolution Computation of the Underwater Explosion [J]. Chinese Journal of Applied Mechanics, 2003, 1(20): 103-107. (in Chinese) |
| [10] | 柏劲松, 陈森华, 李平, 等. 水下爆炸过程的高精度数值计算 [J]. 应用力学学报, 2003, 1(20): 103-107. |
| [11] | Hirt W C, Amsden A A, Cook L J. An Arbitrary Lagrangian-Eulerian Computing Method for All Flow Speeds [J]. J Comput Phys, 1974, 14(3): 227-253. |
| [12] | Luo H. On the Computation of Multi-Material Flows Using ALE Formulation [J]. J Comput Phys, 2004, 194: 304-328. |
| [13] | Fang B, Zhu X, Zhang Z H. Effect of Parameters in Numerical Simulation of Underwater Shock Wave [J]. Journal of Harbin Engineering University, 2005, 26(4): 419-424. (in Chinese) |
| [14] | 方斌, 朱锡. 水下爆炸冲击波数值模拟中的参数影响 [J]. 哈尔滨工程大学学报, 2005, 26(4): 419-424. |
| [15] | Thomas P D, Lombard C K. Geometric Conservation Law and Its Application to Flow Computations on Moving Grids [J]. AIAA Journal, 1978, 17(10): 1030-1037. |
| [16] | Li Y F, Song S H, Zhou T. High Order, High Resolution Finite Volume Methods for Hyperbolic Conservation Laws [J]. Advances in Mechanics, 2001, 31(2): 245-263. (in Chinese) |
| [17] | 李荫藩, 宋松和, 周铁. 双曲型守恒律的高阶、高分辨率有限体积法 [J]. 力学进展, 2001, 31(2): 245-263. |
| [18] | Toro E F, Spruce M, Speares W. Restoration of the Contact Surface in the HLL-Riemann Solver [J]. Shock Waves, 1994, 4: 25-34. |
| [19] | Phillp C. A Direct Eulerian Muscl Scheme for Gas Dynamics [J]. SIAM J Scientific Computing, 1985, 6(1): 104-117. |
| [20] | Wang B, Xu H Q. Application of Riemann Problem in Tracking Multi-Material Interfaces [A]//The 13th National Computational Fluid Dynamics Conference [C]. Dandong, Liaoning, 2007. (in Chinese) |
| [21] | 王兵, 许厚谦. Riemann问题在追踪多介质界面过程中的应用 [A]//第十三届全国计算流体力学会议 [C]. 辽宁丹东, 2007. |
| [22] | Frederic J B. Considerations on the Spring Analogy [J]. Inter J Numer Meth Fluids, 2000, 32(6): 647-668. |
| [23] | Andrew B, Wardlaw J. Spherical Solutions of an Underwater Explosion Bubble [J]. Shock and Vibration, 1998, 5: 89-112. |