PSI - Issue 26

Olha Zvirko et al. / Procedia Structural Integrity 26 (2020) 219–224 Zvirko et al. / Structural Integrity Procedia 00 (2019) 000 – 000

224

6

Bolzon, G., Zvirko, O., 2017. An indentation based investigation on the characteristics of artificially aged pipeline steels. Procedia Structural Integrity 3, 172–175. Bolzon, G., Rivolta, B., Nykyforchyn, H., Zvirko, O., 2018. Mechanical analysis at different scales of gas pipelines. Engineering Failure Analysis 90, 434–439. DSTU EN ISO 3183:2017 (ISO 3183:2012, IDT), 2012. Petroleum and natural gas industries. Steel pipe for pipeline transportation systems, Geneva. / American Petroleum Institute (API), API 5L, 2013. Specifications for line pipe, 45th edition, Washington DC. Dzioba, I. R., Tsyrul’nyk, O. T., 2009. Analysis of the integrity of welded pipes of gas mains by the FITNET procedures. Materials Science 45(6), 817–825. Jang, J. I., Choi, Y., Lee, Y. H., Kwon, D., 2005. Instrumented microindentation studies on long-term aged materials: Work-hardening exponent and yield ratio as new degradation indicators. Mater. Sci. Eng. A, 395(1–2), 295–300. Maruschak, P. O., Danyliuk, I. M., Bishchak, R. T., Vuherer, T. 2014. Low temperature impact toughness of the main gas pipeline steel after long term degradation. Central European Journal of Engineering 4, No. 4, 408–415. Meshkov, Yu. Ya., Shyyan, А. V., Zvirko, О. І., 2015. Evaluation of the in-service degradation of steels of gas pipelines according to the criterion of mechanical stability. Materials Science 50(6), 830–835. Nykyforchyn, H. M., Lunarska, E., Zonta, P., 2011. Degradation of properties of long term exploited main oil and gas pipelines steels and role of environment in this process, in: Integrity of Pipelines Transporting Hydrocarbons. NATO Science for Peace and Security Series C: Environmental Security . In: Bolzon G., Boukharouba T., Gabetta G., Elboujdaini M., Mellas M. (Eds.). Springer, Dordrecht, vol 1, pp. 59-74. Nykyforchyn, H., Zvirko, O., Tsyrulnyk, O., 2017a. Non-destructive diagnostics of hydrogen-induced degradation of pipelines steels by electrochemical method. In: Gdoutos E.E. (ed.) Proceedings of 14 th International Conference on Fracture ICF 2017, Rhodes, Greece, vol. 1, pp. 596–597. Nykyforchyn, H., Zvirko, O., Tsyrulnyk, O., Kret, N., 2017b. Analysis and mechanical properties characterization of operated gas main elbow with hydrogen assisted large-scale de-lamination. Engineering Failure Analysis 82, 364–377. Nykyforchyn, H., Tsyrulnyk, O., Zvirko, O., 2018. Electrochemical fracture analysis of in-service natural gas pipeline steels. Procedia Structural Integrity 13, 1215 – 1220. Nykyforchyn, H., Tsyrulnyk, O., Zvirko, O., Krechkovska, H., 2019. Non-destructive evaluation of brittle fracture resistance of operated gas pipeline steel using electrochemical fracture surface analysis. Engineering Failure Analysis 104, 617–625. Tsyrulnyk, O. T., Slobodyan, Z. V., Zvirko, O. I., Hredil’, M. I., Nykyforchyn, H. M., Gabetta G., 2008. Influence of operation of Kh52 steel on corrosion processes in a model solution of gas condensate. Materials Science 44(5), 619–629. Tsyrulnyk, O. T., Kret, N. V., Voloshyn, V. A., Zvirko O. I., 2018. A procedure of laboratory degradation of structural steels. Materials Science 53(5), 674–683. 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., Kret, N. V., Tsyrulnyk, O. T., Vengrynyuk, T. P., 2018. Influence of textures of pipeline steels after operation on their brittle fracture resistance. Materials Science 54(3), 400–405. Zvirko, O., Gabetta, G., Tsyrulnyk, O., Kret, N., 2019a. Assessment of in-service degradation of gas pipeline steel taking into account susceptibility to stress corrosion cracking. Procedia Structural Integrity 16, 121–125. Zvirko, O., Nykyforchyn, H., Tsyrulnyk, O., 2019b. Evaluation of impact toughness of gas pipeline steels under operation using electrochemical method. Procedia Structural Integrity 22, 299 – 304.