PSI - Issue 42

Halyna Krechkovska et al. / Procedia Structural Integrity 42 (2022) 1398–1405 Halyna Krechkovska / Structural Integrity Procedia 00 (2022) 000 – 000

1405

8

References Babii, L.O., Student, O.Z., Zagórski, A. Markov A.D. 2007. Creep of degraded 2.25Cr-Mo steel in hydrogen. Materials Science 43 (5), 701 – 705. Bakic, G., Sijacki-Zeravcic, V., Djukic, M., Maksimovic, V., Rajicic B. 2013. Material characterization of 1Cr0.25Mo0.25V power plant steel after prolonged service. Proc.1 st MME SEE 2013 Metallurgical & Materials Engineering Congress of South-East Europe, Belgrade, Serbia. Balyts’kyi, O.I., Ripei, I.V., Onyshcha k, O.Y. 2009 Variations of the impact toughness of 12Kh1MF steel in operating steam pipelines of thermal power plants. Material Science 45 (6), 826 – 830. Baltu š nikas, A., Levinskas, R., Luko š t ū t ė. I., 2007 . Kinetics of Carbide Formation During Ageing of Pearlitic 12X1MФ Steel. Materials Science 13(4), 286 – 292. Dzioba 1 , I. R. 2010. Properties of 13KhMF steel after operation and degradation under the laboratory conditions. Materials Science 46 (3), 357 – 354. Dzioba 2 , I., Gajewski, M., Neimitz, A. 2010. Studies of fracture processes in Cr-Mo-V ferritic steel with various types of microstructures. Int. J. Press. Vessel. Pip. 87, 575 – 586. Hredil, M., Krechkovska, H., Student, O., Kurnat, I., 2019. Fractographic features of long term operated gas pipeline steels fracture under impact loading. Procedia Structural Integrity 21, 166 – 172. Krechkovs'ka, G. V. 2008. Structural changes in exploitation of steam power plant pipeline 15Kh1M1F-type steel concerning with shut downs of power units. Metallofizika i Noveishie Tekhnologii 30, Is. Spec. 701 – 711. Krechkovs ’ ka, H. V., Student, O. Z., Nykyforchyn, H. M. 2019. Diagnostics of the engineering state of steam pipeline of thermal power plants by the hardness and crack resistance of steel. Materials Science 54 (5). 627 – 637. Krechkovska H. V. 2021 Structural-fractographic features of structural steels after long-term operation. Materials Science 57 (2), 228 – 233. Krechkovska, H., Sylovanyuk, V., Student, O., Chornenky, A. 2022. Predicting the state of heat-resistant steel of a steam pipeline at a TPP taking into account changes in its strength due to operational damage. Procedia Structural Integrity. 36, 43 – 50. Liu, J., Li, Y. 2022. Influence of 12Cr1MoV material on tissue properties at high temperature and long operating time. Processes. 10, 192. Marushchak, P.O., Bishchak, R.T., Gliha, B., Sorochak A.P. 2007. Influence of temperature on the impact toughness and dynamic crack resistance of 25Kh1M1F steel. Materials Science 43 (5), 568 – 552. Maruschak, P., Vorobel, R., Student, O., Ivasenko, I., Krechkovska, H., Berehulyak, O., Mandziy, T., Svirska, L., Prentkovskis O. 2021. Estimation of fatigue crack growth rate in heat-resistant steel by processing of digital images of fracture surfaces. Metals. 11, 1776. Nykyforchyn H.M. Student O.Z. Krechkovs ’ ka H.V. Markov A.D. 2010. Evaluation of the influence of shutdowns of a technological process on changes in the in-service state of the metal of main steam pipelines of thermal power plants. Materials Science 46 (2), 177 – 189. Ostash, O.P., Panasyuk, V.V., Andreiko, I.M., Chepil, R.V., Kulyk V.V., Vira, V.V. 2007. Methods for the construction of the diagrams of fatigue crack-growth rate of materials. Materials Science 43(4), 479 – 491. Ostash, O. P., Kondyr, A. I., Vol'demarov, O. V., Hladysh, P. V., Kurechko, M. V. 2009. Structural microdamageability of steels of the steam pipelines of thermal power plants. Materials Science 45(3). 340 – 349. Pietryka, I., Lisak, J. 2010. The identification of carbide phases by XRD analysis as the method of assess the extent of the steel damage after long time in service. Archives of Foundry Engineering. 10(3), 283 – 288. Romaniv, O.N., Shur, E.A., Tkach, A.N., Simin ’ kovich, V.N., Kiseleva, T.N. 1981. The kinetics and mechanism of fatigue crack growth in iron. Soviet Material Sciance 17, 158 – 166. Romaniv, O.N., Nikiforchin, G.N., Andrusiv, B.N. 1983. Effect of crack closure and evaluation of the cyclic crack resistance of constructional alloys. Material Science 19 (3), 212 – 225. Romaniv, O.M., Nykyforchyn, H.M., Dzyuba, I.R., Student, O.Z., Lonyuk, B. P. 1998. Effect of damage in service of 12Kh1MF steam-pipe steel on its crack resistance characteristics. Materials Science 34 (1), 110 – 114. Rykavets, Z. M., Bouquerel, J., Vogt, J.-B., Duriagina, Z. A., Kulyk, V. V., Tepla, T. L., Bohun L. I., Kovbasyuk T. M., 2019. Investigation of the microstructure and properties of trip 800 steel subjected to low-cycle fatigue. Progress in Physics of Metals 20(4), 620 – 633. Smiyan , О. D., Student , О. Z. 2021. Fractographic signs of gigacycle fatigue and hydrogenation of heat-resistant steels after long-term operation. Materials Science 56(6), 727 – 738. Song, Y., Chai, M., Han, Z. 2021. Experimental investigation of fatigue crack growth behavior of the 2.25Cr1Mo0.25V steel welded joint used in hydrogenation reactors. Materials 14, 1159. Student, O.Z., Lonyuk, B.P. 1997. A method for fast high-temperature aging of steels. Material Science 33 (6), 865 – 866. Student, O.Z., Cichosz, P., Szimkowski J. 1999. Correlation between the fracture roughness and fatigue threshold of high-temperature degraded steel. Materials Science 35 (6), 796 – 801. Student, O. Z., Matysiak, H., Zagórski, A., Babiy, L. O., Kurzydlowski, K. J. 2005. Creep rupture strength in hydrogen of Cr-Mo-V steel. Inżynieria powierzchni 1(2A), 175 – 179. Student, O.Z., Svirs’ka , L.M., Dzioba, I.R. 2012. Influence of the long-term operation of 12Kh1M1F steel from different zones of a bend of steam pipeline of a thermal power plant on its mechanical characteristics Materials Science. 48(2), 239 – 246. Student, O., Krechkovs’ka , H. 2016.Visualization of damages of the main pipelines using cyclic hydrotesting. Procedia Structural Integrity. V.2, 549 – 556. Student 1 , O.Z., Krechkovska, H.V., Svirska, L.М. Kindratskyi, B .І. , Shyrokov, V. V. 2021. Ranking of the mechanical characteristics of steels of steam pipelines of thermal power plants by their sensitivity to in-service degradation. Materials Science 57 (3), 404 – 412. Student 2 , О. Z., Krechkovska, H. V. Svirska, L. М . Solovei, P. R. 2021. Restoration of the properties of heat-resistant steel after long-term operation in a steam turbine. Materials Science 57 (1), 71 – 79. Zvirko O. I. 2021. In-Service Degradation of Structural Steels (A Survey). Materials Science 57 (3), 319 – 330.