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104. Nykyforchyn H. M., Zvirko O. I., Tsyrulnyk O. T. Hydrogen assisted
macrodelamination in gas lateral pipe. Procedia Structural Integrity. 2016. Vol. 2.
P. 501–508.
105. Hredil M. I. Role of disseminated damages in operational degradation
of steels of the main gas conduits. Metallofizika i Noveishie Tekhnologii. 2011. Vol.
33, Spec. Iss. P. 419–426.
106. Maruschak P., Panin S., Chausov M. et al. Effect of long-term
operation on steels of main gas pipeline: Structural and mechanical degradation.
Journal of King Saud University – Engineering Sciences. 2018. Vol. 30, Iss. 4. P.
363–367.
107. Yasniy P., Maruschak P., Bishchak R. et al. Damage and fracture of
heat resistance steel under cyclic thermal loading. Theoretical and Applied
Fracture Mechanics. 2009. Vol. 52. P. 22–25.
108. Nguyen T. T., Bae K.-O., Park J. et al. Associated with interactions
between microstructural characteristics and hydrogen/methane gas mixtures of
pipeline steels. International Journal of Hydrogen Energy. 2022. Vol. 47, Iss. 73.
P. 31499–31520.
109. Inner corrosion as a factor of in-bulk steel degradation of transit gas
pipelines. Proc. of 18th European Conference on Fracture (ECF-18), Dresden,
Germany, 2010. Manuskript No. 483.
110. Zelmati D., Bouledroua O., Ghelloudj O. et al. A probabilistic
approach to estimate the remaining life and reliability of corroded pipelines.
Journal of Natural Gas Science and Engineering. 2022. Vol. 99. 104387.
111. Anderson T. L. Fracture Mechanics: Fundamentals and Applications.
4th ed. Boca Raton: Taylor & Francis Group, LLC, 2017. 660 p.
112. ASTM E1820-20b. Standard Test Method for Measurement of
Fracture Toughness. ASTM International, 2020. 65 p.
113. Slifka A. J., Drexler E. S., Rustagi N. et al. Fatigue crack growth of
two X52 pipeline steels in a pressurized hydrogen environment. 2012
