1. E. I. Kryzhanivs’kyi and H. M. Nykyforchyn, “Specific features of hydrogen-induced corrosion degradation of steels of gas and oil pipelines and oil storage reservoirs,” Fiz.-Khim. Mekh. Mater., 47, No. 2, 11–20 (2011); English translation: Mater. Sci., 47, No. 2, 127–136 (2011).

2. O. T. Tsyrul’nyk, “Application of the electrochemical methods in the diagnostics of the engineering state of structural materials,” Fiz.-Khim. Mekh. Mater., 49, No. 4, 103–110 (2013); English translation: Mater. Sci., 49, No. 4, 449–460 (2014).

3. O. Z. Student, “Hydrogen effect on properties of heat resistance steels after their high temperature hydrogen degradation in laboratory and service conditions,” in: Proc. of the 18th Europ. Conf. on Fracture, ECF-18: “Fracture of Materials and Structures from Micro and Macro Scale” (Dresden, Germany, 2010), ESIS, DVM, Dresden (2010), Proc. ID 154: 9348 3B D 11357.

4. O. Z. Student and A. D. Markov, “Hydrogen effect on the mechanical properties and fracture mechanism of the degraded welded joints from steam pipeline,” in: Proc. of the 17th Europ. Conf. on Fracture., ECF-17: “Multilevel Approach to Fracture of Materials, Components and Structures,” Brno, Czech Republic (2008), ESIS, Czech Chapter, (2008), pp. 2292–2299.

5. GOST 977-88. Steel Castings. General Specifications [in Russian], Gosstandart, Moscow (2000).