PSI - Issue 41

Hryhoriy Nykyforchyn et al. / Procedia Structural Integrity 41 (2022) 326–332 Hryhoriy Nykyforchyn, Vitaliy Pustovyi, Olha Zvirko et al. / Structural Integrity Procedia 00 (2022) 000 – 000

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Nemchuk, O. O., Krechkovska, H. V., 2019. Fractographic substantiation of the loss of resistance to brittle fracture of steel after operation in the marine gantry crane elements. Metallofizika i Noveishie Tekhnologii 41(6), 825 – 836. Nemchuk, O. O., Zvirko, O. I., 2020. Electrochemical method for the diagnostics of degradation of steels of marine portal cranes. Materials Science 56(3), 410 – 416. Nykyforchyn, H., Lunarska, E., Tsyrulnyk, O., Nikiforov, K., Gabetta, G., 2009. Effect of the long-term service of the gas pipeline on the properties of the ferrite – pearlite steel. Materials and Corrosion 9, 716 – 725. Nykyforchyn, H., Tsyrulnyk, O., Zvirko, O., Hredil, M., 2020. Role of hydrogen in operational degradation of pipeline steel. Procedia Structural Integrity 28, 896 – 902. Nykyforchyn, H., Zvirko, O., Dzioba, I., Krechkovska, H., Hredil, M., Tsyrulnyk, O., Student, O., Lipiec, S., Pala, R., 2021. Assessment of operational degradation of pipeline steels. Materials 14, 12:3247. Nykyforchyn, H., Zvirko, O., Hredil, M., Krechkovska, H., Tsyrulnyk, O., Student, O., Unigovskyi, L., 2022. Methodology of hydrogen embrittlement study of long-term operated natural gas distribution pipeline steels caused by hydrogen transport. Frattura ed Integrità Strutturale 16(59), 396 – 404. Ohaeri, E., Eduok, U., Szpunar, J., 2018. Hydrogen related degradation in pipeline steel: A review. International Journal of Hydrogen Energy 43:31, 14584 – 14617. Okipnyi, I., Poberezhny, L., Zapukhliak, V., Hrytsanchuk, A., Poberezhna, L., Stanetsky, A., Kravchenko, V., Rybitskyi, I., 2020. Impact of long-term operation on the reliability and durability of transit gas pipelines. Strojnicky Casopis 70, 115 – 126. Pustovoi, V. М., Reshchenko , І. О., Zvirko , О. І., 2015. Influence of long-term cyclic deformation on the electrochemical behavior of steels of marine gantry cranes. Materials Science 51(1), 125 – 130. Tang, G., Shi, C., Wang, Y., Hu, X., 2019. Strength analysis of the main structural component in ship-to-shore cranes under dynamic load. IEEE Access, IEEE 7, 23959 – 23966. Wang, H. W., Li, W. T., Bai, H., Xiao, H. Q., Yu., H. M., 2013. Failure analysis of Q345 steel structures on port cranes. Applied Mechanics and Materials 401 – 403, 844 – 847. Wen, H., Li, Y., 2021. Study on stress distribution law and stress performance characteristics of multiple data mining for harbour portal crane detection. IOP Conf. Series: Earth and Environmental Science 631, 012039. Zvirko, О. І., 2017. Electrochemical methods for the evaluation of the degradation of structural steels intended for long-term operation. Materials Science 52(4), 588 – 594. Zvirko, O. I., 2022. In-service degradation of structural steels (A Survey). Materials Science 57(3). DOI: 10.1007/s11003-021-00547-w.

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