期刊
QUARTERLY JOURNAL OF MECHANICS AND APPLIED MATHEMATICS
卷 63, 期 4, 页码 401-435出版社
OXFORD UNIV PRESS
DOI: 10.1093/qjmam/hbq010
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Impedance matrices are obtained for radially inhomogeneous structures using the Stroh-like system of six first-order differential equations for the time-harmonic displacement-traction 6-vector. Particular attention is paid to the newly identified solid-cylinder impedance matrix Z(r) appropriate to cylinders with material at r = 0, and its limiting value at that point, the solid-cylinder impedance matrix Z(0). We show that Z(0) is a fundamental material property depending only on the elastic moduli and the azimuthal order n, that Z(r) is Hermitian and Z(0) is negative semi-definite. Explicit solutions for Z(0) are presented for monoclinic and higher material symmetry, and the special cases of n = 0 and 1 are treated in detail. Two methods are proposed for finding Z(r), one based on the Frobenius series solution and the other using a differential Riccati equation with Z(0) as initial value. The radiation impedance matrix is defined and shown to be non-Hermitian. These impedance matrices enable concise and efficient formulations of dispersion equations for wave guides, and solutions of scattering and related wave problems in cylinders.
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