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Journal of Applied
Mathematics and Mechanics
Russian Academy of Sciences

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in January 1936
(Translated from 1958)
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ISSN 0021-8928
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Issues > Archive of Issues > 2009-1 > pp.71-76

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Total articles in the database:		10482
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S.V. Kuznetsov, "Soliton-like lamb waves," J. Appl. Math. Mech. 73 (1), 71-76 (2009)

Year

2009

Volume

Issue

Pages

71-76

Title

Soliton-like lamb waves

Author(s)

S.V. Kuznetsov (Moscow, Russia, kuzn-sergey@yandex.ru)

Abstract

The velocity and polarization of acoustic Lamb waves, propagating in the directions of elastic symmetry of single-layer and double-layer anisotropic media at vanishingly low frequencies (soliton-like waves), are investigated. The method of fundamental matrices is used to construct solutions. The conditions for soliton-like Lamb waves to exist are analysed.

References

1.	Russell J. Scott Report on waves. 14th Meeting British Assoc. Advance. Sci., York 1844 (London 1845). p. 311–390.
2.	A.D.D. Craik, The origins of water wave theory, Ann Rev Fluid Mech 36 (2004), pp. 1–28.
3.	D.J. Korteweg and G. de Vries, On the change of form of long wave advancing in a rectangular canal, and on a new type of long stationary waves, Phil Mag 5 (39) (1895), pp. 422–443.
4.	P. Lax, Integrals of nonlinear equations of evolution and solitary waves, Comm Pure Appl Math 21 (5) (1968), pp. 467–490.
5.	J.W. Miles, The Korteweg-de Vries equation, a historical essay, J Fluid Mech 106 (1981), pp. 131–147.
6.	M. Planat and M. Hoummady, Observation of solution-like envelope modulations generated in a anisotropic quartz plate by metallic interdigital transducers, Appl Phys Lett 55 (2) (1989), pp. 103–105.
7.	R.M. Davies, A critical study of the Hopkinson pressure bar, Phill Trans Roy Soc London Ser A 240 (821) (1948), pp. 375–457.
8.	R.D. Mindlin and H.D. McNiven, Axially symmetric waves in elastic rods, Trans ASME Ser E J Appl Mech 27 (1) (1960), pp. 145–151.
9.	M. Onoe, H.D. McNiven and R.D. Mindlin, Dispersion of axially symmetric waves in elastic rods, Trans ASME Ser E J Appl Mech 29 (4) (1962), pp. 729–734.
10.	K.F. Graff, Wave Motion in Elastic Solids, Clarendon Press, Oxford (1975) 649p.
11.	T. Kawahara, Oscillatory solitary waves in dispersive media, J Phys Soc Japan 33 (1) (1972), pp. 260–264.
12.	Mp.P. Soerensen, P.L. Christiansen and P.S. Lomdahl, Solitary waves on nonlinear elastic rods. I, J Acoust Soc America 76 (3) (1984), pp. 871–879.
13.	I.V. Porubov, A.M. Samsonov, M.G. Velarde and A.V. Bukhanovsky, Strain solitary waves in an elastic rod embedded in another elastic external medium with sliding, Phys Rev Ser E 58 (3) (1998), pp. 3854–3864.
14.	H. Lamb, On waves in an elastic plate, Proc Roy Soc London Ser A 93 (648) (1917), pp. 114–128.
15.	S.V. Kuznetsov, Subsonic Lamb waves in anisotropic plates, Quart Appl Math 60 (3) (2002), pp. 577–587.
16.	W.T. Thomson, Transmission of elastic waves through a stratified solid medium, J Appl Phys 21 (2) (1950), pp. 89–93.
17.	N.A. Haskell, Dispersion of surface waves on multilayered media, Bull Seismol Soc America 43 (1) (1953), pp. 17–34.
18.	L. Knopoff, A matrix method for elastic wave problems, Bull Seismol Soc America 54 (1) (1964), pp. 431–438.
19.	A.K. Mal and L. Knopoff, A differential equation for surface waves in layers with varying thickness, J Math Anal Appl 21 (2) (1968), pp. 431–444.
20.	S.V. Kuznetsov, Surface waves of non-Rayleigh type, Quart Appl Math 61 (3) (2003), pp. 575–582.
21.	C.D. Meyer and Matrix Analysis, Applied Linear Algebra, SIAM, Philadelphia (2002) 710p.

Received

25 January 2008

Link to Fulltext

http://www.sciencedirect.com/science/journal/00218928

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