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References
Morse P.M., 1948. Vibration and sound, Ch. 4. McGraw-Hill, New York NY
Rayleigh J.W.S., 1885. On waves propagated along the plane surface of an elastic solid. Proc. Mathematical Society London, 17, 4–11
Schoch A., 1950. Periodische Wellen im schubspannungsfreien planparallelen Schichten. Ergebnisse der exakten Naturwissenschaften, 23, p. 172
Achenbach J.D., 1975. Wave propagation in elastic solids. North-Holland, Amsterdam
Naake H.J. and Tamm K., 1958. Sound propagation in plates and rods of rubber-elastic materials. Acustica, 8, p. 65
Götz J., 1943. Über den Schalldurchgang durch Metallplatten in Flüssigkeiten bei schrägem Einfall einer Welle. Akustische Zeitschrift, 8, p. 145
Firestone F.A., 1948. Tricks with the supersonic reflectoscope. Nondestructive testing, 7, p. 5
Tamm K. and Weiss O., 1959. Untersuchungen über periodische Wellen, exponentielle und komplexe Nahfelder im begrenzten Festkörper. Acustica, 9, p. 275
Epstein P.S., 1942. On the theory of elastic vibrations in plates and shells. Journal of Mathematics and Physics, 21, p. 198
Huber M.T., 1914. Die Grundlagen einer rationellen Berechnung der kreuzweise bewehrten Eisenbetonplatte. Zeitschrift des Östereichischen Ingenieur-und Architekten-Vereins, 30, p. 557
Hearmon R.F.S. and Adams E.H., 1952. The bending and twisting of an isotropic plates. British Journal of Applied Physics, 3, p. 155
Timoshenko S.P. and Woinowsky-Krieger S., 1959. Theory of plates and shells (2nd ed.), Ch. 11. McGraw-Hill, Auckland
Heckl M., 1960. Untersuchungen an orthotropen Platten. Acustica, 10, 109–115
Heckl M., 1990. Einfache Anwendung des Hamiltonschen Prinzips bei Körperschallproblemen. Acustica, 72, 189–196
Mindlin R.D., 1951. Influence of rotatory inertia and shear on flexural motions of isotropic, elastic plates. Journal of Applied Mechanics, 18, p. 155
Junger M.L. and Feit D., 1972. Sound structures and their interaction, Ch. 9. MIT Press, Cambridge MA
Love A.E.H., 1948. A treatise on the mathematical theory of elasticity, Ch. XXIII. Dover Publications, New York NY
Rayleigh J.W.S., 1945. Theory of sound (2nd ed.), Vol. 1, §235e. Dover Publications, New York NY
Cremer L., 1955. Theorie der Luftschalldämmung zylindrischer Schalen. Acustica, 5, p. 245
Donell L.H., 1939. Discussion of thin shell theory. Proc. 5th International Congress on Applied Mechanics, p. 66
Leissa A.W., 1973. Vibration of shells. NASA-SP 288
Heckl M., 1962. Vibrations of point-driven cylindrical shells. Journal of the Acoustical Society of America, 34, 1553–1557
Cremer L., 1984. Physics of the violin, §3.3. MIT Press, Cambridge MA
Reissner E., 1955. On transverse vibration of thin, shallow elastic shells. Quarterly Applied Mathematics, 13, p. 169
Noiseux D.U., 1970. Measurement of power flow in uniform beams and plates. Journal of the Acoustical Society of America, 47, p. 238
Pavic G., 1976. Measurement of structure borne wave intensity, part I: Formulation of the methods. Journal of Sound and Vibration, 49, p. 221
Pavic G., 1986. The influence of curvature on structure-borne acoustical power propagation in a cylindrical circular shell. Proc. 12th International Congress on Acoustics, Paper D6-6. Toronto
Fahy F.J., 1995. Sound intensity (2nd ed.). E & FN Spon, London
Maysenhölder W., 1994. Körperschallenergie. Grundlagen zur Berechnung von Energiedichten und Intensitäten. S. Hirzel Verlag, Stuttgart
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Cremer, L., Heckl, M., Petersson, B. (2005). Survey of Wave Types and Characteristics. In: Structure-Borne Sound. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-26514-7_3
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