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2. O. H. Arkhypov, Yu. Ya. Nikhaenko, V. A. Borysenko, M. S. Khoma, and O. V. Lyubymova-Zinchenko, “In-service degradation of the mechanical properties of the metal of an ammonia pipeline,” Fiz.-Khim. Mekh. Mater., 49, No. 4, 97–102 (2013); English translation: Mater. Sci., 49, No. 4, 525–531 (2014).

3. I. V. Gorynin and B. T. Timofeev, “Aging of materials of the equipment of nuclear power plants after designed service life,” Fiz.-Khim. Mekh. Mater., 42, No. 2, 13–27 (2006); English translation: Mater. Sci., 42, No. 2, 155–169 (2006).

4. H. M. Nykyforchyn, K.-J. Kurzydlowski, and E. Lunarska, “Hydrogen degradation of steels in long term service conditions,” in: S. Shipilov (editor), Environment-Induced Cracking of Materials, Vol. 2: Prediction, Industrial Developments, and Evaluations, Elsevier (2008), pp. 349–361.

5. H. Nykyforchyn, E. Lunarska, O. Tsyrulnyk, et al., “Environmentally assisted “in-bulk” steel degradation of long term service gas trunkline,” Eng. Fail. Anal., 17, 624–632 (2010).