1 |
Khabakhpasheva, T.I., Kim, Y. and Korobkin, A.A., 2014. Generalised Wagner model of water impact by numerical conformal mapping. Applied Ocean Research, 44, pp.29-38.
DOI
ScienceOn
|
2 |
Korobkin, A.A., 1996. Water impact problems in ship hydrodynamics. In: M. Ohkusu, ed. Advances in marine hydrodynamics. Southampton: Computational Mechanics Publications.
|
3 |
Korobkin, A.A., 2004. Analytical models of water impact. European Journal of Applied Mathematics, 15, pp.821-838.
DOI
ScienceOn
|
4 |
Korobkin, A.A. and Iafrati, A., 2005. Hydrodynamic loads during initial stage of floating body impact. Journal of Fluids and Structures, 21(4), pp.413-427.
DOI
ScienceOn
|
5 |
Korobkin, A.A., 2011. Semi-analytical approach in Generalised Wagner model. Proceedings of 26th International Workshop on Water Waves and Floating Bodies, Athens, Greece, 17-20 April 2011, pp.85-88.
|
6 |
Korobkin, A.A., 2013. A linearized model of water exit. Journal of Fluid Mechanics, 737, pp.368-386.
DOI
|
7 |
Korobkin, A., Khabakhpasheva, T.I. and Maki, K.J., 2014. Water-exit problem with prescribed motion of a symmetric body. In Proceedings 29th International Workshop on Water Waves and Floating Bodies, Osaka, Japan, 30 March-2 April 2014, pp.117-120.
|
8 |
Malenica, S., and Korobkin, A.A., 2007. Some aspects of slamming calculations in seakeeping. In: Proceedings of 9th International Conference on Numerical Ship Hydrodynamics, Michigan, 5-8 August 2007.
|
9 |
Malleron, N. and Scolan, Y.M., 2008. Generalized Wagner model for 2D symmetric and elastic bodies. Proceedings of 23d International Workshop on Water Waves and Floating Bodies, IWWWFB23, Jeju, Korea, 13-16 April 2008, pp.124-127.
|
10 |
Mei, X., Liu, Y. and Yue, D.K.P, 1999. On the water impact of general two-dimensional sections. Applied Ocean Research, 21(1), pp.1-15.
DOI
ScienceOn
|
11 |
Nisewanger, C.R., 1961. Experimental determination of pressure distribution on a sphere during water entry (No. NOTSTP- 2806). California: Naval Ordnance Test Station China Lake CA.
|
12 |
Piro, D.J. and Maki, K.J., 2011. Hydroelastic wedge entry and exit. In 11-th International Conference on Fast Sea Transport, Honolulu, Hawaii, USA, 26-29 September 2011.
|
13 |
Piro, D.J. and Maki, K.J., 2013. Hydroelastic analysis of bodies that enter and exit water. Journal of Fluids and Structures, 37, pp.134-150.
DOI
ScienceOn
|
14 |
Scolan, Y.M. and Korobkin, A.A., 2001. Three-dimensional theory of water impact. Part 1. inverse Wagner problem. Journal of Fluid Mechanics, 440, pp.293-326.
|
15 |
Tassin, A., Piro, D.J., Korobkin, A.A., Maki, K.J. and Cooker, M.J., 2013. Two-dimensional water entry and exit of a body whose shape varies in time. Journal of Fluids and Structures, 40, pp.317-336.
DOI
ScienceOn
|
16 |
Zhao, R., Faltinsen, O. and Aarsnes, J., 1996. Water entry of arbitrary two-dimensional sections with and without flow separation. In: Proceedings of 21-st Symposium on Naval Hydrodynamics, Trondheim, Norway, 24-28 June 1996, pp.408-423.
|
17 |
Zhu, X., Faltinsen, O. and Hu C., 2005. Water entry loads on heeled ship sections. In: International Conference on Hydrodynamics in Ship Design, Gdańsk-Ostróda, Poland, 7-10 September 2005.
|
18 |
Baldwin, J.L. and Steves, H.K., 1975. Vertical water entry of spheres, NASA STI/Recon Technical Report, N. 76, 13452. Silver Spring, MD, USA: White Oax Laboratory.
|
19 |
Battistin, D. and Iafrati, A., 2003. Hydrodynamic loads during water entry of two-dimensional and axisymmetric bodies. Journal of fluids and structures, 17(5), pp.643-664.
DOI
ScienceOn
|