The Quarterly Journal of Mechanics and Applied Mathematics

The Quarterly Journal of Mechanics and Applied Mathematics 2002 55(2):297-311; doi:10.1093/qjmam/55.2.297
© 2002 by Oxford University Press

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An Explicit Secular Equation for Surface Waves in an Elastic Material of General Anisotropy

T. C. T. Ting¹

( ¹ University of Illinois at Chicago, Department of Civil and Materials Engineering, 842 West Taylor Street (M/C 246), Chicago, IL 60607-7023, USA )

An explicit secular equation for surface waves in an elastic half-space was obtained by Rayleigh in 1885 (Proc. London Math. Soc. 17) for isotropic materials and by Stoneley in 1963 (Geophys. J. Astron. Soc. 8) for orthotropic materials. Since then no explicit secular equation was found for a material more general than orthotropic materials. Recently, Destrade (J. Acoust. Soc. Amer. 109, 2001) employed the first integrals (originally proposed by Mozhaev) to obtain an explicit secular equation for monoclinic materials with the symmetry plane at x₃ = 0, which is the plane of motion. The first integral approach does not work for monoclinic materials with the symmetry plane at x₁ = 0 or x₂ = 0. Ting (Proc. R. Soc. 32, 2002) proposed a new approach that not only recovers Destrade's secular equation easily, but also provides an explicit expression of the Stroh eigenvalues p and the eigenvectors a, b without solving the quartic equation for p. These eigenvalues and eigenvectors are needed in the surface wave solution. Employing this new approach, Ting also obtained explicit secular equations for monoclinic materials with the symmetry plane at x₁ = 0 or x₂ = 0. This new approach is extended here to derive an explicit secular equation for surface waves in a general anisotropic elastic material. The secular equation for a general anisotropic material is then specialized to monoclinic materials with the symmetry plane at x₁ = 0, x₂ = 0 or x₃ = 0. It does recover the secular equations of Destrade, Stoneley and Rayleigh.

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Received 2 April 2001. Revised 21 September 2001.

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This article has been cited by other articles:

				A. Mielke and Y. B. Fu Uniqueness of the Surface-Wave Speed: A Proof That Is Independent of the Stroh Formalism Mathematics and Mechanics of Solids, February 1, 2004; 9(1): 5 - 15. [Abstract] [PDF]

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