PSI - Issue 51

Olha Zvirko et al. / Procedia Structural Integrity 51 (2023) 24–29

29

6

O. Zvirko et al. / Structural Integrity Procedia 00 (2022) 000–000

Kang, M., Aono, Y., Noguchi, H., 2007. Effect of prestrain on and prediction of fatigue limit in carbon steel. International Journal of Fatigue 29, 1855–1862. Kossakowski, P.G., 2013. Fatigue strength of an over one hundred year old railway bridge. Baltic Journal of Road and Bridge Engineering 8(3), 166–173. Kret, N.V., Svirska, L.M., Venhrynyuk, T.P., 2020. Corrosion-fatigue crack propagation in exploited pump rods made of 20N2M steel. Materials Science 56(2), 279–283. Lesiuk, G., Szata, M., 2015. Kinetics of fatigue crack growth and crack paths in the old puddled steel after 100-years operating time. Frattura ed Integrità Strutturale 9(34), 290–299. Lesiuk, G. Rymsza, B., Rabiega, J., Correia, J.A.F.O., De Jesus, A.M.P., Calcada, R., 2019. Influence of loading direction on the static and fatigue fracture properties of the long term operated metallic materials. Engineering Failure Analysis 96, 409–425. Marushchak, P.О., Kret, N.V., Bishchak, R.Т., Kurnat, І.М., 2019. Influence of texture and hydrogenation on the mechanical properties and character of fracture of pipe steel. Materials Science 55(3), 381–385. Nagumo, M., 2004. Hydrogen related failure of steels a new aspect. Materials Science and Technology 20, 940–950. Nemchuk, O., Hredil, M., Pustovoy, V., Nesterov, O., 2019. Role of in-service conditions in operational degradation of mechanical properties of portal cranes steel. Procedia Structural Integrity 16, 245–251. Nykyforchyn, H., Tsyrulnyk, O., Zvirko, O., 2019a. Laboratory method for simulating hydrogen assisted degradation of gas pipeline steels. Procedia Structural Integrity 17, 568–575. Nykyforchyn, H., Tsyrulnyk, O., Zvirko, O., Krechkovska, H., 2019b. Non-destructive evaluation of brittle fracture resistance of operated gas pipeline steel using electrochemical fracture surface analysis. Engineering Failure Analysis 104, 617–625. 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., 2022. Operational degradation of fatigue strength of structural steels: role of corrosive-hydrogenating environments. Structural Integrity 24, 253–258. 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(1), 115–126. Park, C., Kang, N., Liu, S., Lee, J., Chun, E., Yoo, S.-J., 2019. Effect of prestrain on hydrogen embrittlement susceptibility of EH 36 steels using in situ slow-strain-rate testing. Metals and Materials International 25(3), 584–593. Polishchuk, L. K., Kharchenko, H. V., Zvirko, О. І., 2015. Corrosion-fatigue crack-growth resistance of steel of the boom of a clamp-forming machine. Materials Science 51(2), 229–234. Pustovyi, V.М., Semenov, P.О., Nemchuk, О.О., Hredil, М.І., Nesterov, О.А., Strelbitskyi, V.V., 2022. Degradation of steels of the reloading equipment operating beyond its designed service life. Materials Science 57(5), 640–648. Syrotyuk, А.М., Babii, А.V., Barna, R.А., Leshchak, R.L., Marushchak, P.О., 2021. Corrosion-fatigue crack-growth resistance of steel of the frame of a sprayer boom. Materials Science 56(4), 466–471. Tsyrulnyk, O.T., Zvirko, O.I., Voloshyn, V.A., 2022. Corrosion-fatigue life of 35 steel in tap water under additional cavitation loading. Materials Science 57(4), 527–532. Voloshyn, V.A., 2020. Cyclic corrosion crack resistance of an exploited welded joint of 17G1S pipe steel. Materials Science 56(1), 119–124. Voloshyn, V.A., Zvirko, O.I., Sydor, P.Y., 2015. Influence of the compositions of neutral soil media on the corrosion cracking of pipe steel. Materials Science 50(5), 44–47. Vukelic, G., Vizentin, G., Ivosevic, S., Bozic, Z., 2022. Analysis of prolonged marine exposure on properties of AH36 steel. Engineering Failure Analysis 135, 106132. Zvirko, O.I., 2021. In-service degradation of structural steels (A survey). Materials Science 57(3), 319–330. Zvirko, O., Mytsyk, B., Nykyforchyn, H., Tsyrulnyk, O., Kost’, Ya., 2022. Application of the various methods for assessment of in-service degradation of pipeline steel. Mechanics of Advanced Materials and Structures. 2022. DOI: 10.1080/15376494.2022.2111732 Zvirko, O., Tsyrulnyk, O., Lipiec, S., Dzioba, I., 2021. Evaluation of corrosion, mechanical properties and hydrogen embrittlement of casing pipe steels with different microstructure. Materials 14(24), 7860, 1–17. Zhao, L.H., Feng, J.Z., Zheng, S.L., 2018. Effect of cyclic stresses below the endurance limit on the fatigue life of 40Cr steel. Strength of Materials 50(1), 2–10. Zhang, Y., Liu, X., Lai, J., Wei, Y., Luo, J., 2021. Corrosion fatigue life prediction of crude oil storage tank via improved equivalent initial flaw size. Theoretical and Applied Fracture Mechanics 114, 103023.