PSI - Issue 59

Ivan Tsybailo et al. / Procedia Structural Integrity 59 (2024) 307–313 Ivan Tsybailo et al. / Structural Integrity Procedia 00 (2019) 000 – 000

313

7

Foulds, J., Viswanathan, R., 1994. Small Punch Testing for Determining the Material Toughness of Low Alloy Steel Components in Service // Journal of Engineering Materials and Technology 116 (4), 457 – 464. Golanski, G., Wieczorek, P., 2008. Electron Microscopy Investigation of the Cr - Mo - V Cast Steel. Archives of Materials Science and Engineering. 30 (2). International Scientific Journal, World Academy of Material and Manufacturing Engineering, April 2008. Hong, Xu, Xue-Kun, Huang, Zhen, Yang, Ji-Ti, Pan., 2003. Property changes of 12Cr1MoV with 10CrMo910 main steam piping after long-term high temperature service. Engineering Failure Analysis 10. 245 – 250. ISO 6892 - 1:2016 Metallic materials –Tensile testing. Part 1: Method of test at room temperature. 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 (SPEC. ISS.), 701 – 711. Krechkovska H., Student O., Hredil M., Tsybailo I., Holovchuk M., Shtoyko I., 2022. Visualization of fractographic signs of operational degradation of heat - resistant steel for estimating its actual structure - mechanical state. Procedia Structural Integrity 42.1398–1405. Krechkovs’ka, H.V., 2016. Fractographic signs of the mechanisms of transportation of hydrogen in structural steels. Materials Science 51(4), 509–513. 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., Student, O., Zvirko, O., Hredil, M., Svirska, L., Tsybailo I., Solovei, P., 2023. Substantiation of the critical structural and mechanical state of low - alloy heat - resistant steel from steam pipelines of thermal power plant Engineering Failure Analysis 50. 107359. Louthan Jr., M. R., 2008. Hydrogen embrittlement of metals: A primer for the failure analyst. Journal of Fatigue Analysis and Prevention 8(3), 289–307. Martin, M.L., Connolly, M.J., DelRio, F.W., Slifka, A.J., 2020. Hydrogen embrittlement in ferritic steels. Appl. Phys. Rev. 7(4). 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., 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. Material Science 45 (3), 340 – 349. Saba, B. M., 2003. Evaluation of mechanical fitness for service of high - temperature hydrogen attacked steels. A Thesis for the degree of Master of Science in Mechanical Engineering. Louisiana: Louisiana State University, pp.163 Smiyan, О. D., Student, О. Z., 2021. Fractographic signs of gigacycle fatigue and hydrogenation of heat - resistant steels after long - term operation. Material Science 56 (6), 727–738. Student, O.Z., Krechkovs’ka, H.V., 2012. Anisotropy of the mechanical properties of degraded 15Kh1M1F steel after its operation in steam pipelines of thermal power plants. Materials Science 47 (5), 590–597. Student, O.Z., Krechkovs’ka, H.V, Palashchuk, T.E., Hladkyi, Ya. М. , 2018. Influence of the long - term operation of 12Kh1 М F steel of the bends of main steam pipelines of thermal power plants on its mechanical properties. Materials Science 53 (4), 460–467. Student, 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, O.Z., 1998. Accelerated method for hydrogen degradation of structural steel Materials Science 34 (4), 497–507. Sun, Q., Li, X., Li, K., Cai, Z., Han, C., Li, S., Gao, D., Pan, J., 2022. Effects of Long - Term Service on Microstructure and Impact Toughness of the Weld Metal and Heat - Affected Zone in CrMoV Steel Joints. Metals 12, 278. Tsybailo, I.O., Svirska, L.M., Solovei, P.R., Krechkovska, S. R., Datsko, B. M., Student, O. Z., 2023. Use of electrolytic hydrogenation to visualize the damage of long-term operated heat-resistant steel of top steam pipelines. Materials Science 58 (5), 602-608. Wang, Y., Cheng, G., Qin, M., Li, Q., Zhang, Z., Chen, K., Li, Y., Hu, H., Wu, W., Zhang, J., 2017. Effect of high temperature deformation on the microstructure, mechanical properties and hydrogen embrittlement of 2.25Cr–1Mo - 0.25 V steel. International Journal Hydrogen Energy 42, 24549–24559. Yasnii, P. V., Hlad’o , V. B., Okipnyi I. B., Tsyrul’nyk O. T., 2008. Microstructure and fracture stresses of plastically deformed and hydrogenated heat-resistant 15Kh2MFA steel. Materials Science 44 (3), 441 – 445. Yasniy, P.V., Okipnyi, I.B., Maruschak, P.O., Bishchak, R.T., Sorochak, A.P., 2011. Toughness and failure of heat resistant steel before and after hydrogenation. Theoretical and Applied Fracture Mechanics 56(2), 63 – 67. Yasniy, P.V., Okipnyi, I.B., Maruschak, P.O., Panin, S.V., Konovalenko, I.V., 2013. Crack tip strain localisation on mechanics of fracture of heat resistant steel after hydrogenation. Theoretical and Applied Fracture Mechanics 63 – 64, 63 – 68. Yasniy, O., Pyndus, Yu., Iasnii, V., Lapusta, Y., 2017. Residual lifetime assessment of thermal power plant superheater header. Engineering Failure Analysis 82, 390 – 403. Zhuravel', I. M., Svirs'ka, L. M., 2010. Measurement of the mean grain size in a metal by using fractal dimensions. Materials Science 46 (3), 418–420. Zieliński , A., Dobrzański , J., Krztoń , H., 2007. Structural changes in low alloy cast steel Cr - Mo - V after long time creep service. Journal of Achievements in Materials and Manufacturing Engineering 25 (1), 33–36. Zieliński, A., 2017. Influence of long - term ageing on the microstructure and mechanical properties of T24 steel, Material Science and Engineering: A 682(13), 664–672.