The parameters of signals of magnetoelastic acoustic emission are used to evaluate the influence of hydrogen on the changes in the power of Barkhausen jumps in ferromagnets. We tested two different types of materials: nickel and steel. The hydrogen content in the bulk of the specimens is computed by the finite-element method by using equations obtained from the Fick laws. It is shown that the influence of hydrogenation on the parameters of signals of magnetoelastic acoustic emission and, hence, on the power of Barkhausen jumps caused by the external magnetic field is different for different materials.
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O. A. Bartenev, V. A. Khamitov, and E. S. Gorkunov, “Acoustic emission accompanying dynamic magnetostriction in the Barkhausen effect,” in: Ferroelectrics and Piezoelectrics [in Russian], Mezhvuz. Tematich. Sborn., Kalinin State University, Kalinin (1981), pp. 132–140.
V. N. Kolmogorov, “Investigations of acoustic emission in ferromagnets,” in: Abstr. of the All-Union Scientific-and-Engineering Seminar [in Russian], Khabarovsk (1972), pp. 18–19.
O. A. Bartenev, V. A. Khamitov, and É. S. Gorkunov, “Method of observation of Barkhausen jumps by the emission of sound,” Prib. Tekhn. Éksperim., No. 1, 187–199 (1984).
Yu. G. Bezymyannyi, “Analysis of the possibilities of the method of magnetoacoustic noise for the monitoring of fatigue in nickel,” in: Barkhausen Effect and its Applications in Engineering [in Russian], Kalinin State University, Kalinin (1981), pp. 152–156.
J. Kameda and R. Ranjan, “Nondestructive evaluation of steels using acoustic and magnetic Barkhausen signals,” Acta Met., 35, No. 7, 1515–1526 (1987).
D. J. Buttle, C.B. Scruby, J. P. Jakubobies, and J. A. D. Briggs, “Magnetoacoustic and Barkhausen emission from domain–Wall interactions with precipitates in Incoloy 904,” Phil. Mag. A., 55, No. 6, 735–756 (1987).
E. P. Nechai and V. N. Moskvin, “On the application of the Barkhausen effect for monitoring of the degree of hydrogenation of metals,” in: Abstr. of the All-Union Interinstitution Conf. on Electromagnetic Methods of the Quality Control of Materials and Products [in Russian], Part II, Riga (1975).
G. S. Migirenko, V. N. Moskvin, and E. P. Nechai, “Application of the method of magnetic noise to the investigation of hydrogenation of steel,” in: Methods for the Determination and Investigation of the States of Gases in Metals [in Russian], Part I, MDNTP, Moscow (1973), pp. 88–93.
G. V. Lomaev, V. S. Malyshev, and A. P. Degterev, “A survey of application of the Barkhausen effect in nondestructive testing,” Defektoskopiya, No. 3, 54–71 (1984).
V. Skal’skii, V. Mikhal’chuk, R. Dolishnii, and R. Semegenivskii, “Evaluation of the influence of hydrogen on the Barkhausen effect in nickel and steel,” in: Proc. of the Fourth Internat. Congr. on Technical Diagnostics (September 9–12, 2008, Olsztyn, Poland), Olsztyn, Poland (2008), pp. 159–161.
I. M. Dmytrakh, O. L. Bilyi, A. M. Syrotyuk, and O. D. Smiyan, “Evaluation of hazard of the corrosion-fatigue fracture for feeding pipelines of power-generating units of thermal power plants in the presence of technogenic organic admixtures in heat carriers,” Fiz.-Khim. Mekh. Mater., Special Issue, No. 7, 833–838 (2008).
I. G. Ovchinnikov and A. E. Rassada, Analysis of the Experimental Data on the Influence of Hydrogen at Normal Temperatures on the Mechanical Properties of Metals and Alloys and the Construction of a Model of Interaction of Structural Elements with Hydrogen, Part 1: Problem of the Action of Hydrogen on Metals and the Methods of Its Solution. Regularities of the Penetration of Hydrogen in Structural Elements [in Russian], Saratov (1990), Deposited in VINITI, No. 551, V90.
K. A. Kolachev, Hydrogen Brittleness of Metals [in Russian], Metallurgiya, Moscow (1985).
V. I. Tkachev, V. I. Kholodnyi, and I. N. Levina, Serviceability of Steels and Alloys in Hydrogen-Containing Media [in Russian], Vertikal’, Lvov (1999).
N. A. Galaktionova, Hydrogen in Metals [in Russian], Metallurgiya, Moscow (1967).
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Translated from Fizyko-Khimichna Mekhanika Materialiv, Vol. 45, No. 5, pp. 49–54, September–October, 2009.
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Nazarchuk, Z.T., Skal’s’kyi, V.R., Klym, B.P. et al. Influence of hydrogen on the changes in the power of Barkhausen jumps in ferromagnets. Mater Sci 45, 663–669 (2009). https://doi.org/10.1007/s11003-010-9229-9
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DOI: https://doi.org/10.1007/s11003-010-9229-9