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The propagation of waves in an elastic half-space containing a cylindrical cavity

Published online by Cambridge University Press:  24 October 2008

R. D. Gregory
R. D. Gregory
Affiliation:
Department of Mathematics, University of Manchester
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Abstract

The problem of the propagation of time harmonic waves in an isotropic elastic half-space containing a submerged cylindrical cavity is solved analytically. Linear plane strain conditions are assumed. Using an expansion theorem proved in a previous paper (Gregory (3)), the elastic potentials are expanded in a series form which automatically satisfies the governing equations, the conditions of zero stress on the flat surface, and the radiation conditions at infinity. The conditions of prescribed normal and tangential stresses on the cavity walls are shown to lead to an infinite system of equations for the expansion coefficients. This system of equations is shown to be a regular L2-system of the second kind and from its unique l2-solution, the solution to the problem is constructed. The fundamental questions of existence and uniqueness are fully treated and methods are described for constructing the solution.

Three applications of the general theory are presented dealing respectively with the production, amplification and reflexion of Rayleigh waves.

Type
Research Article
Information
Mathematical Proceedings of the Cambridge Philosophical Society , Volume 67 , Issue 3 , May 1970 , pp. 689 - 710
Copyright
Copyright © Cambridge Philosophical Society 1970

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References

REFERENCES

(1)Ben-Menahem, A. and Cisternas, A.The dynamic response of an elastic half-space to an explosion in a spherical cavity. J. Mathematical Phys. 42 (1963), 112125.CrossRefGoogle Scholar
(2)Gregory, R. D.The attenuation of a Rayleigh wave in a half-space by a surface impedance. Proc. Cambridge Philos. Soc. 62 (1966), 811827.CrossRefGoogle Scholar
(3)Gregory, R. D.An expansion theorem applicable to problems of wave propagation in an elastic half-space containing a cavity. Proc. Cambridge Philos. Soc. 63 (1967), 13411367.CrossRefGoogle Scholar
(4)Gregory, R. D.Stress concentration around a loaded bolt in an axially loaded bar. Proc. Cambridge Philos. Soc. 64 (1968), 12151236.CrossRefGoogle Scholar
(5)Hayes, M. and Rivlin, R. S.A note on the secular equation for Rayleigh waves. Z. Angew. Math. Phys. 13 (1962), 8083.CrossRefGoogle Scholar
(6)Kupradze, V. D.Dynamical problems in elasticity; progress in solid mechanics, vol. 3 (Wiley, 1963).Google Scholar
(7)Lapwood, E. R.The disturbance due to a line source in a semi-infinite elastic medium. Philos. Trans. Roy. Soc. London Ser. A 242 (1949), 63100.Google Scholar
(8)Miklowitz, J.Elastic wave propagation; Applied Mechanics Surveys (Spartan Books, Washington D.C., 1966), 809839.Google Scholar
(9)Polskii, N. I.On the convergence of certain approximate methods of analysis. Ukrain. Mat. Ž. 7 (1955), 5670 (Russian).Google Scholar
(10)Riesz, F.Systèrnes d'équations linéaires à une infinité d'inconnues (Paris, 1913).Google Scholar
(11)Smithies, F.Integral equations (Cambridge University Press, 1962).Google Scholar
(12)Thiruvenkatachar, V. R. and Viswanathan, K.Dynamic response of an elastic half-space with cylindrical cavity to time dependent surface tractions over the boundary of the cavity. J. Math. Mech. 14 (1965), 541571.Google Scholar
(13)Thiruvenkatachar, V. R. and Viswanathan, K.Dynamic response of an elastic half-space to time dependent surface tractions over an embedded spherical cavity. Proc. Roy. Soc. Ser. A 287 (1965), 549567.Google Scholar
(14)Ursell, F.Surface waves on deep water in the presence of a submerged circular cylinder. I. Proc. Cambridge Philos. Soc. 46 (1950), 141152.CrossRefGoogle Scholar
(15)Watson, G. N.A treatise on the theory of Bessel functions, 2nd ed. (Cambridge, 1944).Google Scholar