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TECHNICAL PAPERS

The Forced Oscillations of Submerged Bodies

[+] Author and Article Information
Angel Sanz-Andrés, Gonzalo Tevar

Instituto Universitario “Ignacio Da Riva,” Universidad Politécnica de Madrid, c/o E.T.S.I. Aeronáuticos, Pza. Cardenal Cisneros, s/n, E 28040 Madrid, Spain

Francisco-Javier Rivas

Integration and Testing Department, EADS/CASA Espacio, Avda. de Aragon 404, 28022 Madrid, Spaine-mail: jrivas@casa-de.es

J. Fluids Eng 125(4), 710-715 (Aug 27, 2003) (6 pages) doi:10.1115/1.1593706 History: Received July 11, 2001; Revised January 23, 2003; Online August 27, 2003
Copyright © 2003 by ASME
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References

Bretl, J., and Conti, P., 1987, “Rigid Body Mass Properties From Test Data,” Proceedings of the 5th International Modal Analysis Conference, Apr. 6–9, London, 1 , Society for Experimental Mechanics, Bethel, CT, pp. 655–659.
Fregolent, A., Sestieri, A., and Falzetti, M., 1992, “Identification of Rigid Body Inertia Properties From Experimental Frequency Response,” Proceedings of the 10th International Modal Analysis Conference, Feb. 3–7, San Diego, CA, 1 , Society for Experimental Mechanics, Bethel, CT, pp. 219–225.
Pandit,  S. M., Yao,  Y.-X., and Hu,  Z.-Q., 1994, “Dynamic Properties of the Rigid Body and Supports From Vibration Measurements,” ASME J. Vibr. Acoust., 116, pp. 269–274.
Wolcott, K. R., Graham, T. A., and Doty, K. L., 1994, “Innovative Mechanism for Measuring the Mass Properties of an Object,” 28th Aerospace Mechanism Symposium, NASA Lewis Research Center, pp. 107–121.
Sanz-Andres, A., Tevar, G., and Rivas, F. J., 2001, “ODISEA—A Method for Measurement of Mass Properties of an Element Based on Its Rigid Body Dynamics,” Proceedings of the 4th International Symposium on Environmental Testing for Space Programmes, Liege, Belgium, European Space Agency Publications Division, ESA SP-467.
Blevins, R. D., 1993, Formulas for Natural Frequency and Mode Shape, Krieger, Malabar, FL, Chapter 14.
Lamb, H., 1916, Hydrodynamics, 4th Ed., Cambridge Univ. Press, Cambridge, UK, Chapter 5.
Newman, J. N., 1977, Marine Hydrodynamics, 6th Ed., M.I.T. Press, Cambridge, MA, Chap. 4.
Sedov, L. I., 1965, Two-Dimensional Problems in Hydrodynamics and Aerodynamics, Wiley Interscience, New York, pp. 29–30.
Sedov, L. I., 1975, Mecanique des milieux continus, II, Mir, Moscow, pp. 194–196.
Kochin, N. E., Kibel, I. A., and Roze, N. V., 1964, Theoretical Hydromechanics, Wiley Interscience, New York, pp. 404–411.

Figures

Grahic Jump Location
Geometry of the body and definition of reference systems (CM: center of mass; E: point where Fe is applied; CP: central point; (O; X, Y, Z): inertial reference system; (CM; x, y, z): body fixed reference system
Grahic Jump Location
Problem geometry for the plate dynamic analysis. (CM; x, y, z): body fixed reference system.

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