1. Makhutov, N.A. and Gadenina, M.M., Obespechenie resursa i zhivuchesti vodo-vodyanykh energeticheskikh reaktorov (Support of Operation and Work Capacity of WWER Power Reactors), Moscow: Nauka, 2009, pp. 56–63.

2. Sarkisov, A.A., Vysotskii, V.L., Bilashenko, V.P., Barinov, V.N., Kiselev, A.E., Markarov, V.G., Kulakov, I.N., Lepekhin, A.N., Petrunin, V.V., Pichugin, A.V., and Krysov, S.V., Expected radiological and radioecological consequences of operating floating nuclear heat and power plants, At. Energy, 2008, vol. 104, no. 3, pp. 237–249.

3. Kozhevnikov, O.A., Nesterova, E.V., Rybin, V.V., and Yarmolovich, I.I., Mechanical properties, fine structure, and micromechanisms of fracture in titanium α- alloys irradiated with neutrons, Met. Sci. Heat Treat., 1999, vol. 41, no. 9, pp. 412–416.

4. Panin, A.V., Kazachenkov, M.S., Romanova, V.A., Balokhonov, R.R., Kozel’skaya, A.I., Sinyakova, E.A., and Krukovskii, K.V., Formation mechanisms of the deformation relief on the surface of polycrystalline VT1-0 titanium specimens under uniaxial tension, Fiz. Mezomekh., 2016, no. 19 (5), pp. 74–83

5. Lütjering, G., Williams, J.C., and Gysler, A., Microstructure and mechanical properties of titanium alloys, in Microstructure and Properties of Materials, Singapore: Word Sci., 2000, vol. 2.1, ch. 1.