Abstract
There are two types of two-phase flow problems: one is to deal with two phases of the matter in the whole flow field which has been the case for most of our discussions in previous chapters, and the other is the interaction between two phases occurring essentially on the boundary condition for which the ablation (Chapter VIII) is a special case. In this chapter, we are going to discuss the two-phase flow problems of interaction between a solid body and a fluid flow, either a gas (aeroelasticity) or a liquid (hydroelasticity).
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References
Abramson, H. N., Chu, W. H, and Irick, J. T.: Hydroelasticity, with special reference to hydrofoil craft. Report of Southwest Research Institute, San Antonio, Texas, 1966.
Attinger, E. D.: Hydrodynamics of blood flow. Advances in Hydro science, Vol. 3. Ed. V.T. Chow, pp. 111–152, 1966.
Bisplinghoff, R. L. and Ashley, H.: Principles of Aeroelasticity. John Wiley & Sons, New York, 1962.
Castile, G. E. and Herr, R. W.: Some effects of density and Mach number on the flutter speed of two uniform wings. NACA TN-1989, Dec. 1949.
Collar, A.R.: The expanding domain of aeroelasticity. Jour. Roy. Aero. Soc. Vol. 50, No. 428, pp. 613–636, 1946.
Flax, A. H.: Aero- and Hydroelasticity. In: Structural Mechanics, Proc. 1st Symposium on Naval Structural Mechanics. Ed. by J. N. Goodier and N. J. Hoff, pp. 285–326, Pergamon Press, New York, 1960.
Fry, D. L. and Greenfield, J. C, Jr.: The Mathematical approach to hemodynamics, with particular reference to Womersley’s theory. In: Pulsatile Blood Flow. Ed. by E. Attinger, pp. 85–100, McGraw-Hill, New York, 1964.
Fung, Y. C: An Introduction to the Theory of Aeroelasticity. John Wiley & Sons, New York, 1955.
Fung, Y. C: Flutter. Sec. 63, Handbook of Engineering Mechanics, Ed. W. Fluegge, McGraw-Hill, New York, 1962.
Garrick, I. E.: Flutter. Sec. 80, Handbook of Engineering Mechanics, Ed. by W. Fluegge, McGraw-Hill, New York, 1962.
Heller, S. R. jr.: Hydroelasticity. Advances in Hydro sciences, Vol. I, Ed. by V. T. Chow, pp. 95–160,1964.
Henry, C. J., Dugundji, J. and Ashley, H.: Aeroelasticity stability of lifting surface in high density fluid. Jour. Ship. Res. Vol. 2, No. 4, pp. 10–21, 1959.
Herr, R. W.: A study of flutter at low mass ratio with possible application to hydrofoils. NASA TN-D-831, May 1961.
Kaplan, P. and Henry, C. J.: A study of hydroelastic instabilities of supercavitating hydrofoils. Jour. Ship. Res. Vol 4, No. 3, pp. 28–38,1960.
Lin, T. C. and Morgan, G. W.: Wave propagation through fluid contained in a cylindrical elastic shell Jour. Scous. Soc. of America, Vol. 28, No. 6, pp. 1165–1176, Nov. 1956.
Olsen, J. H. and Shapiro, A. H.: Large amplitude unsteady flow of liquid-filled elastic tubes. Jour. Fluid Mech. Vol 29, pt. 3, pp. 513–538,1967.
Pai, S. I. and Sears, W. R.: Some aeroelastic properties of swept wings. Jour. Aero. Sci., Vol 16, No. 2, pp. 105–116, Feb. 1949.
Pai, S. I.: Modern Fluid Dynamics, Chap. 4, Dimensional Analysis, XYZYX Information Corp. Calif., 1971.
Poiseuille, J. L. M.: Recherches expérimentales sur le mouvement des liquides dans les tubes de très petite diamètres. Compt. Rend. 11, pp. 961–1041, 1840.
Streeter, V. L., Keitzer, W. F. and Bohr, D. F.: Energy dissipation in distensible tubes. In: Pulsatile Blood Flow, Ed. by E. Attinger, pp. 149–177, McGraw-Hill, New York, 1964.
Theodorsen, T.: General theory of aerodynamic instability and the mechanism of flutter. NACATR-496,1934.
Van Dorn, N. H. and de Young, J.: A comparison of three theoretical methods of calculating span load distribution on swept wings. NACA TN-1476, 1947.
von Mises, R.: Theory of Flight. McGraw-Hill, New York, 1945.
Womersley, J. R.: The mathematical analysis of the arterial circulation in a state of oscillatory motion. Wright Air Development Center, Tech. Rept. WADC-TR-56–614, 1958.
Woolston, D. and Castile, G.: Some effects of variations in several parameters including fluid density on the flutter speed of light uniform cantilevel wings. NACA TN-2558, 1951.
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© 1977 Springer Fachmedien Wiesbaden
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Pai, SI. (1977). Aeroelasticity and Hydroelasticity. In: Oswatitsch, K. (eds) Two-Phase Flows. Vieweg Tracts in Pure and Applied Physics, vol 3. Vieweg+Teubner Verlag, Wiesbaden. https://doi.org/10.1007/978-3-322-86348-5_9
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DOI: https://doi.org/10.1007/978-3-322-86348-5_9
Publisher Name: Vieweg+Teubner Verlag, Wiesbaden
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