PSI - Issue 82

Valentyn Uchanin et al. / Procedia Structural Integrity 82 (2026) 288–294 Valentyn Uchanin et al. / Structural Integrity Procedia 00 (2026) 000–000

294

7

Dmytrakh, I.M., Syrotyuk, A.M., Mokryi, O.M., Uchanin, V.M., Tsyrulnyk, O.T., Zvirko, O.I., Leshchak, R.L., 2025. Comparison of the applicability of different nondestructive testing methods for assessing hydrogen concentration in carbon steel. Materials Science 60, 328–334. Dobmann, G., Meyendorf, N., Schneider, E., 1997. Nondestructive characterization of materials. A growing demand for describing damage and service-life-relevant aging processes in plant components. Nuclear Engineering & Design 171, 95–112. Dong, L., Wang, S., Wu, G., Gao, J., Zhou, X., Wu, H.-H., Mao, X., 2022. Application of atomic simulation for studying hydrogen embrittlement phenomena and mechanisms in iron-based alloys. International Journal of Hydrogen Energy 47, 20288–20309. Gale, R., 2011. Incremental launching of steel girders in British Columbia – two case studies. Structural Engineering International 21, 443–449. Garikepati, P., Chang, T.T., Jiles, D.C., 1988. Theory of ferromagnetic hysteresis: evaluation of stress from hysteresis curves. IEEE Transactions on Magnetics 24, 2922–2924. Gilanyi, A., Morishita, K., Sukegawa, T., Uesaka, M., Miya, K., 1998. Magnetic nondestructive evaluation of fatigue damage of ferromagnetic steels for nuclear fusion energy systems. Fusion Engineering and Design 42, 485–491. Gou, R., Zhang, Y., Xu, X., Sun, L., Yang, Y., 2011. Residual stress measurement of new and in-service X70 pipelines by X-ray diffraction method. NDT&E International 44, 387–393. Gowindaraiu, M., Kaminski, D., Devine, M., Biner, S., Jiles, D., 1997. Nondestructive evaluation of creep damage in power-plant steam generators and piping by magnetic measurements. NDT&E International 30, 1–17. Hanneken, J.W., 1999. Hydrogen in metals and other materials: a comprehensive reference to books, bibliographies, workshops and conferences. International Journal of Hydrogen Energy 24, 1005–1026. Jiles, D., 2016. Introduction to Magnetism and Magnetic Materials. Third edition. Boca Raton: CRC Press, Taylor & Francis Group. Kim, Dae-Sung, Yoo, Ji-Hyeung, Moon, Hong-Duk, 2016. Non-destructive stress measurement of civil structural steel using magnetic anisotropy sensor. International Journal of Civil, Structural, Environmental and Infrastructure Engineering Research and Development 6, 13–20. Kotpalliwar, M., Kushwaha, N., 2024. Incremental launching of the steel girders for bridges. International Journal of Trend in Scientific Research 4, 664–669. Kumar, H., Mohapatra, J., Roy, R., Joseyphus, R.J., Mitra, A., 2010. Evaluation of tempering behavior in modified 9Cr–1Mo steel by magnetic non-destructive techniques. Journal of Materials Processing Technology 210, 669–674. Kwun, H., Burkhart, G.L., 1987. Effects of Grain Size, Hardness, and Stress on the Magnetic Hysteresis Loops of Ferromagnetic Steels. Journal of Applied Physics 61, 1576–1579. Langman, R.A., Mutton, P.J., 1993. Estimation of residual stresses in railway wheels by means of stress-induced magnetic anisotropy. NDT&E International 26, 195–205. Laureys, A., Depraetere, R., Cauwels, M., Depover, T., Hertele, S., Verbeken, K., 2022. Use of existing steel pipeline infrastructure for gaseous hydrogen storage and transport: A review of factors affecting hydrogen-induced degradation. Journal of Natural Gas Science and Engineering 101, 104534. Li, Y., Wang, L., Fei, F., Wang, D., Xue, Z., Liu, X., Sun, X., 2025. Plane-stress measurement in anisotropic pipe walls using an improved tri directional LCR ultrasonic method. Sensors 25, 4371. Lindgren, M., Lepistö, T., 2002. Application of Barkhausen noise to biaxial residual stress measurements in welded steel tubes. Materials Science and Technology 18, 1369–1376. Minakov, S.M., Uchanin, V.M., 2020. Monitoring of the stressed state of bridge span structure during mounting by the sliding method. Technical Diagnostic and Nondestructive Testing 4, 40–44. Nutor, R., Fan, X., Ren, S., Chen, M., Fang, Y., 2017. Research progress of stress-induced magnetic anisotropy in Fe-based amorphous and nanocrystalline alloys. Journal of Electromagnetic Analysis and Applications 9, 53–72. Osadchuk, V.A., Banakhevych, Y.V., Ivanchuk, O.O., 2006. Determination of the stressed state of main pipelines in the zones of circular welds. Materials Science 42, 256–262. Rummel, W.D., 2014. Nondestructive evaluation – a critical part of structural integrity. Procedia Engineering 86, 375–383. Uchanin, V., Minakov, S., Nardoni, G., Ostash, O., Fomichov, S., 2018. Nondestructive determination of stresses in steel components by the eddy current method. Journal of Mechanical Engineering 64, 690–697. Uchanin, V., Ostash, O., 2019. Development of electromagnetic NDT methods for structural integrity assessment. Procedia Structural Integrity 16, 192–197. Uchanin, V., Ostash, O., Nardoni, G., Solomakha, R., 2020. Coercive force measurements for structural health monitoring, in The Fundamentals of Structural Integrity and Failure . In: Wilcox, R.M. (Ed.). Nova Science Publishers, New York, USA, pp. 163–192. Vourna, P., Ktena, A., Tsakiridis, P.E., Hristoforou, E., 2018. Magnetic residual stresses monitoring technique for ferromagnetic steels. Metals 8, 592. Wimpory, R.C., Ohms, C., Hofmann, M., Schneider, R., Youtsos, A.G., 2009. Statistical analysis of residual stress determinations using neutron diffraction. International Journal of Pressure Vessels and Piping 86, 48–62. Xie, H., Liao, Q., Liao, L., Qiu, Y., 2024. Machine vision-based real-time monitoring of bridge incremental launching method. Sensors 24, 7385. Xie, M., Tian, Z., 2018. A review on pipeline integrity management utilizing in-line inspection data. Engineering Failure Analysis 92, 222–239. Xue, T., Liu, L., Zhang, J., Dai, M., Shi, G., Li, X., 2025. Experimental study on pipeline–soil interaction in translational landslide. Coatings 15, 537. Yamada, H., Kishimoto, S., Ito, M., Takenaka, Y., 1985. Stress analysis with magnetic anisotropy sensor and its application. Proc. 11th World Conf. for NDT, Vol.1.1, pp. 607–614. Yamada, H., Kobayashi, M., Kishimoto, S., Ito, M., Wakiwaka, H., 1989. Theory of a magnetic anisotropy sensor and its application. In Non Destructive Testing. Elsevier, pp. 391–393. Zellner, W., Svensson, H., 1983. Incremental launching of structures. Journal of Structural Engineering 109, 520–537.