Reflection and refraction of a plane sound wave in an elastic plate with an inhomogeneous anisotropic coating

In paper the problem of the reflection and refraction of a plane harmonic sound wave by a homogeneous isotropic elastic plate with an continuously inhomogeneous anisotropic elastic
coating is considered. It is assumed that the plate is adjoin to ideal fluids.
The propagation of small perturbations in a ideal fluid in the case of steady state oscillations is described by Helmholtz’s equation. The propagation of elastic waves in a uniform isotropic
elastic plate is described by scalar and vector Helmholtz’s equations for longitudinal and transverse waves. Oscillations of an inhomogeneous anisotropic elastic coating are described
by general motion equations of the continuous medium.
The boundary-value problem for the system of ordinary second order differential equations is constructed for determination of the displacement field in inhomogeneous anisotropic coating.
An analytical description of the reflected and transmitted through the plate acoustic fields is obtained.
Particular cases when the material of an inhomogeneous coating is transversely isotropic and isotropic are considered.
The results of numerical calculations of dependence of reflection coefficient of a homogeneous isotropic plate with a transversely isotropic coating from the incidence angle of plane wave are
presented.

1. Shenderov, E. L. 1972, “Wave problems of underwater acoustics”, Sudostroenie, Leningrad, 352 p., [in Russian].

2. Brekhovskikh, L. M. 1973, “Waves in Layered Media”, Nauka, Moscow, 344 p., [in Russian].

3. Lonkevitch, M.P. 1971, “Transmission of sound through a finite-thickness layer of a transversal–isotropic materia”, Akust. Zhurnal, vol. 17, no 1, pp. 85 – 92, [in Russian].

4. Shenderov, E.L. 1984, “Sound propagation through transversally-isotropic plate”, Akust.Zhurnal, vol. 30, no 1, pp. 122 – 129, [in Russian].

5. Larin, N. V. 2015, “The transmission of sound through a uniform thermoelastic plane layer”,Izv. Tul. Gos. Univ., Ser. Estestv. Nauki, no 3, pp. 145 – 153, [in Russian].

6. Larin, N. V. 2017, “Analysis of the resonance sound scattering by a thermoelastic plate”, Izv.Tul. Gos. Univ., Ser. Tekh. Nauki, no 4, pp. 109 – 123, [in Russian].

7. Prikhod’ko, V.Yu. & Tyutekin, V. V. 1986, “Calculation of reflection coefficient of sound wavesfrom solid layered media”, Akust. Zhurnal, vol. 32, no 2, pp. 212 – 218, [in Russian].

8. Skobel’tsyn, S. A. & Tolokonnikov, L. A. 1990, “Transmission of sound waves through a transversely isotropic inhomogeneous plane layer”, Akust. Zhurnal, vol. 36, no 4, pp. 740 – 744,

9. [in Russian].

10. Rinkevich, A. B. & Smirnov, A. N. 2000, “Propagation of elastic waves in a non-uniform transversely isotropic plate”, Defektoskopiya, no 8, pp. 78 – 83, [in Russian].

11. Tolokonnikov, L. A. 1999, “Reflection and refraction of a planar acoustic waves in an anisotropic inhomogeneous layer”, J. Appl. Mech. and Techn. Physics, vol. 40, no 5, pp. 936 – 941.

12. Tolokonnikov, L. A. 1998, “The transmission of sound through an inhomogeneous anisotropic layer adjoining viscous liquids”, J. Appl. Math. Mech., vol. 62, no 6, pp. 953 – 958.

13. Larin, N. V. & Tolokonnikov, L. A. 2006, “The transmission of a plane acoustic wave through a non-uniform thermoelastic layer”, J. Appl. Math. Mech., vol. 70, no 4, pp. 590 – 598.

14. Tolokonnikov, L. A. & Larin, N. V. 2017, “Sound propagation through a discretely inhomogeneous thermoelastic plane layer adjacent to heat-conducting liquids”, J. Appl. Mech.

15. and Techn. Physics, vol. 58, no 1, pp. 95 – 102.

16. Larin, N. V., Skobel’tsyn, S. A. & Tolokonnikov, L. A. 2015, “Determination of the Inhomogeneity Laws for an Elastic Layer with Preset Sound-Reflecting Properties”, Acoustical

17. Physics, vol. 61, no 5, pp. 504 – 510.

18. Skobel’tsyn, S. A. 2016, “Determining the parameters of anisotropic elastic layer on the sound transmission”, Izv. Tul. Gos. Univ., Ser. Tekh. Nauki, no 7-2, pp. 246 – 257, [in Russian].

19. Tolokonnikov, L. A. & Yudachev, V. V. 2015, “Reflection and refraction of a planar acoustic waves in an elastic planar layer with a non-uniform covering”, Izv. Tul. Gos. Univ., Ser. Estestv.

20. Nauki, no 3, pp. 219 – 226, [in Russian].

21. Tolokonnikov, L. A. & Nguyen, T. S. 2018, “About the influence of an non-uniform covering of the elastic plate on sound reflection and transmission”, Izv. Tul. Gos. Univ., Ser. Tekh. Nauki, no 6, pp. 362 – 372, [in Russian].

22. Tolokonnikov, L. A. & Nguyen, T. S. 2019, “The transmission of sound through an elastic plate with an inhomogeneous coating adjoining viscous liquids, Chebyshevskii sbornik, vol. 20, no 2, pp. 311 – 324, [in Russian].

23. Larin, N. V., Skobel’tsyn, S. A. & Tolokonnikov, L. A. 2016, Modelling the inhomogeneous coating of an elastic plate with optimum sound-reflecting properties”, J. Appl. Math. Mech.,

24. vol. 80, no 4, pp. 339 – 344.

25. Larin, N. V. 2016, “Determination of the inhomogeneity laws for coating of the thermoelastic plate to obtain minimum sound reflection”, Izv. Tul. Gos. Univ., Ser. Tekh. Nauki, no 11-2,

26. pp. 216 – 234, [in Russian].

27. Skobel’tsyn, S. A. 2017, “Tstimation of the coating properties of a finite plate with a cavity providing the given parameters of the sound reflection”, Izv. Tul. Gos. Univ., Ser. Tekh. Nauki,

28. no 7, pp. 83 – 92, [in Russian].

29. Nowacki, W. 1975, “Teoria sprezystosci”, Mir, Мoscow, 872 p., [in Russian].

30. M.A. Isakovich, M.A˙ . 1973 “General acoustics”, Nauka, Moscow, 496 p., [in Russian].