ABAQUS, Example Problems Manual, Version 6.11.ABAQUS, Example Problems Manual, Version 6.11.

ABAQUS, Theory Manual, Version 6.11.ABAQUS, Theory Manual, Version 6.11.

Adamczyk, R. and Cichocki, K. (1997). “Analysis of the shock response of an underwater structure subjected to a far-field explosion.” Proceedings of ABAQUS Users' Conference, Milan, Italy, pp. 73-87.Adamczyk, R. and Cichocki, K. (1997). “Analysis of the shock response of an underwater structure subjected to a far-field explosion.” Proceedings of ABAQUS Users' Conference, Milan, Italy, pp. 73-87.

Arden, K. E. (1995). “Use of MSC/NASTRAN in predicting structural response to an underwater explosion.” MSC 1995 World Users' Conference Proceedings, California, p. 51.Arden, K. E. (1995). “Use of MSC/NASTRAN in predicting structural response to an underwater explosion.” MSC 1995 World Users' Conference Proceedings, California, p. 51.

Cichocki, K. (1994). “Computer analysis of dynamic response due to underwater explosion on hybrid structure.” Proceedings of ABAQUS Users' Conference, Newport, pp. 207-220.Cichocki, K. (1994). “Computer analysis of dynamic response due to underwater explosion on hybrid structure.” Proceedings of ABAQUS Users' Conference, Newport, pp. 207-220.

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Geers, T. L. and Hunter, L. S. (2002). “An integrated wave-effects model for an underwater explosion bubble.” Journal of Acoustical Society of America, Vol. 111, pp. 1548-1601.10.1121/1.1458590Geers, T. L. and Hunter, L. S. (2002). “An integrated wave-effects model for an underwater explosion bubble.” Journal of Acoustical Society of America, Vol. 111, pp. 1548-1601.

Kwon, Y. W. and Cunningham, R. E. (1998). “Comparison of USA-Dyna finite element models for a stiffened shell subject to underwater shock.” Computers and Structures, Vol. 66, pp. 127-144.10.1016/S0045-7949(97)00049-7Kwon, Y. W. and Cunningham, R. E. (1998). “Comparison of USA-Dyna finite element models for a stiffened shell subject to underwater shock.” Computers and Structures, Vol. 66, pp. 127-144.

Kwon, Y. W. and Fox, P. K. (1993). “Underwater shock response of a cylinder subjected to a side-on explosion.” Computers and Structures, Vol. 48, pp. 637-646.10.1016/0045-7949(93)90257-EKwon, Y. W. and Fox, P. K. (1993). “Underwater shock response of a cylinder subjected to a side-on explosion.” Computers and Structures, Vol. 48, pp. 637-646.

McCoy, R. W. and Sun, C. T. (1997). “Fluid-structure interaction analysis of a thick section composite cylinder subjected to underwater blast loading.” Composite Structures, Vol. 37, pp. 45-55.10.1016/S0263-8223(97)00081-0McCoy, R. W. and Sun, C. T. (1997). “Fluid-structure interaction analysis of a thick section composite cylinder subjected to underwater blast loading.” Composite Structures, Vol. 37, pp. 45-55.

Shin Y. S. (2004). “Ship shock modeling and simulation for far-field underwater explosion.” Computers and Structures, Vol. 82, pp. 2211-2219.10.1016/j.compstruc.2004.03.075Shin Y. S. (2004). “Ship shock modeling and simulation for far-field underwater explosion.” Computers and Structures, Vol. 82, pp. 2211-2219.

Shin, Y. S. and Hooker, D. T. (1996). “Damage response of submerged imperfect cylindrical structures to underwater explosion.” Computers and Structures, Vol. 60, pp. 683-693.10.1016/0045-7949(95)00441-6Shin, Y. S. and Hooker, D. T. (1996). “Damage response of submerged imperfect cylindrical structures to underwater explosion.” Computers and Structures, Vol. 60, pp. 683-693.