Subramaniam K V, Weimin N, Yiannis A. Blast Response Simulation of an Elastic Structure Evaluation of the Fluid-Structure Interaction Effect [J]. Int J Impact Eng, 2009, 36: 965-974.
[2]
Rajendran R. Numerical Simulation of Response of Plane Plates Subjected to Uniform Primary Shock Loading of Non-Contact Underwater Explosion [J]. Materials and Design, 2009, 30: 1000-1007.
[3]
Karagiozova D, Nurick G N, Langdon G S, et al. Response of Flexible Sandwich-Type Panels to Blast Loading [J]. Composites Science and Technology, 2009, 69: 754-763.
[4]
Li H T, Zhu X, Huang X M. On the Characteristics of Cavitation Formation Subjected to Underwater Blast Shock Wave [J]. Chinese Journal of High Pressure Physics, 2008, 22(2): 181-186. (in Chinese)
Frost P A, Harper E Y. Acoustic Radiation from Surfaces Oscillating at Large Amplitude and Small Mach Number [J]. J Acous Soc Am, 1975, 58: 318-325.
[7]
Hunter K S. Global-Shape-Function Models of an Underwater Explosion Bubble [D]. Faculty of Graduate School of the University of Colorado, 2001: 16.
[8]
Cole J S, Christian E A, Slifko J P, et al. Shock-Wave Parameters from Spherical TNT Charges Detonated Underwater [R]. Washington D. C: Office of Naval Research, 1945: 1085-1105.
[9]
Price R S. Simulitude Equations for Explosives Fired Underwater [R]. NSWC: Technical Report NSWC TR, 1979: 80-299.
[10]
Gherlrre G L, Penoue T O, Tucre R C B. 89001 Dynaflow [R]. Dynaflow, Inc. Technical Report, 1989: 1.
