1. V. I. Astashkin, O. R. Hachkevych, T. V. Kozakevych, and A. Rawska-Skotniczny, “Optimization of the residual stressed state of steel plates under the action of moving heat sources with regard for structural transformations,” Visn. Kyiv. Nats. Univ. im. T. Shevchenko. Ser. Fiz.-Mat. Nauky, Issue 3, 69–72 (2013).

2. B. Z. Margolin, V. A. Shvetsova, A. G. Gulenko, A. V. Il'in, V. A. Nikolaev, and V. I. Smirnov, "Prediction of fracture toughness of reactor pressure vessel steels using the "Master curve" concept and probabilistic model," Probl. Prochn., No. 1, 5-21 (2002)

3. English translation: Strength Mater., 34, No. 1, 1-11 (2002).

4. I. Hrivňák, Zvaritel’nost’ Oseli, Alfa, Bratislava (1979).

5. B. A. Gurovich, E. A. Kuleshova, and S. V. Fedotova, “Influence of the chemical composition and structural parameters of the steels of WWER reactor vessels on the susceptibility to embrittlement caused by the formation of grain-boundary segregations, including the segregations formed under the conditions typical of long-term operation of power plants,” in: Proc. of the 7th Internat. Sci.-Tech. Conf. “Problems of Safety of Nuclear Power Plants with WWER (May 17–20) [in Russian], “Gidropress” Experimental Design Office, Podol’sk (2011).