1. Aleshin, N.P., Grigor’ev, M.V., Shchipakov, N.A., Krys’ko, N.V., Krasnov, I.S., Prilutskii, M.A., and Smorodinskii, Ya.G., On the possibility of using ultrasonic surface and head waves in nondestructive quality checks of additive manufactured products, Russ. J. Nondestr. Test., 2017, vol. 53, no. 12, pp. 830–838.
2. Khlybov, A.A., Uglov, A.L., and Rodyushkin, V.M., Assessment of mechanical stresses in structural elements using Rayleigh surface waves generated by electromagnetic-acoustic transducers, Vestn. Nauchn.-Tekh. Razvitiya, 2017, no. 8 (120), pp. 29–39.
3. Uglov, A.L., Khlybov, A.A., and Kuvshinov, M.O., On nondestructive testing of residual stresses in axially symmetric parts made of steel 03N17K10V10MT, Vestn. Izhevsk. Gos.Tekh. Univ. im. Kalashnikova, 2020, vol. 22, No. 4, pp. 3–9. https://doi.org/10.22213/2413-1172-2019-4-3-9
4. Eryi Hu, Yming He, and Yanming Chen, Experimental study on the surface stress measurement with Rayleigh wave technique, Appl. Acoustics, 2009, vol. 70, no. 2, pp. 356–360.
5. Antonov, A.M., Erofeev, V.I., and Leontyeva, A.V., Influence of material damage on Rayleigh wave propagation along the half-space boundary, Vychisl. Mekh. Sploshnykh Sred, 2019, vol. 12, no. 3, pp. 293–300.