1 |
Hsin, C.Y., 1990. Development and analysis of panel methods for propellers in unsteady flow. Ph.D. Cambridge: Massachusetts Institute of Technology.
|
2 |
James, R.M., 1972. On the Remarkable Accuracy of the Vortex Lattice Method. Computer Methods in Applied Mechanics, 1(1), pp.59-79.
DOI
ScienceOn
|
3 |
Kerwin, J.E. & Lee, C.S., 1978. Prediction of steady and unsteady marine propeller performance by numerical lifting surface theory. Transactions of The Society of Naval Architects and Marine Engineers, 86, pp.218-253.
|
4 |
Kim, Y.G. Lee, J.T. Lee, C.S. & Suh, J.C., 1993. Prediction of Steady Performance of a Propeller by Using a Potential-Based Panel Method. Journal of the Society of Naval Architects of Korea, 30(1), pp.73-86.
과학기술학회마을
|
5 |
Kim, Y.G., 1995. Prediction of unsteady performance of marine propellers with cavitation using surface panel method. Ph.D. Daejeon: Chungnam National University.
|
6 |
Lindholm, U.S. Kana, D.D. Chu, W.H. & Abramson, H.N., 1965. Elastic Vibration Characteristics of Cantilever Plates in Water. Journal of Ship Research, 9(1), pp.11-36.
|
7 |
Nho, I.S. Lee, J.Y. Lee, H.Y. & Lee, C.S., 2004. A Dynamic Structural Analysis System for Propeller Blades. Journal of the Society of Naval Architects of Korea, 41(2), pp.114-120.
과학기술학회마을
DOI
ScienceOn
|