1. Zakumailov, K.V., Levin, V.M., and Petronyuk, Yu.S., Ul’Trazvukovye Metody Vysokogo Razresheniya: Vizualizatsiya Mikrostruktury I Diagnostika Uprugikh Svoistv Sovremennykh Materialov (Obzor) (Ultrasound Method of High Resolution: Visualization of Micro-structure and Diagnosis of Elastic Properties of Modern Materials (Review)), Zavod. Lab., Diagn. Mater., 2009, vol. 75, no. 8, pp. 28–34.

2. Karabutov, A.A., Kobeleva, L.I., Podymova, N.B., and Chernyshova, T.A., Lasernyi Optikoakusticheskii Metod Lokal’nogo Izmerenya Uprugikh Modulei Kompozitsionnykh Materialov, Uprochnennykh Chatitsami (Laser OPtoacoustic Method for Local Elastic Moduli Measurement of Particle Reinforced Metal Matrix), Electron. J. “Tech. Acoust.”, 2008, no. 19, p. 15. http://www.ejta.org

3. Zuev, L.B. and Semukhin, B.S., Akusticheskie Svoistva Metallov I Splavov Pri Deformatsii (Acoustic Properties of Metals and Alloys under Deformation), Fiz. Khim. Obrab. Mater., 2002, no. 5, pp. 62–68.

4. Akop’yan, V.A. and Rozhkov, E.V., Investigation of Strained States of Materials using Fiber-Optic and Acoustic-Emission Methods, Russ. J. Nondestr. Test., 2001, vol. 37, no. 4, pp. 301–305.

5. Stepanova, L.N., Lebedev, E.Yu., Kabanov, S.I., Chaplygin, V.N., Katarushkin, S.A., et al., Study of Fracture of Specimens Made of Fiberglass Plastic using Acoustic-Emission and Strain Measurements, Russ. J. Nondestr. Test., 2009, vol. 45, no. 2, pp. 103–108.