10.14489/td.2018.04.pp.020-029

2018, 04 April

DOI: 10.14489/td.2018.04.pp.020-029

Komarov V. A.
MAGNETOELASTIC ELECTROMAGNETIC ACOUSTIC TRANSFORMATION. Part 3
(pp. 20-29)

Abstract. The calculation of projections induction secondary field in the air, appearing after a double electromagnetic acoustic transformation in solid ferromagnetic, a conducting body due to magnetotlastic of transformation mechanism fields. Unlike the electromagnetic mechanism of interconversion acoustic and electromagnetic the fields at the magnetoelastic mechanism of transformation an informative parameter is E.M.F., induced by the normal component of induction of the secondary field in a measuring сoil. Found that the relationship between the amplitude of induction of the secondary field and the EMF induced in the reception of the inductive coil, largely changed when you change the size of the inductor. Comparison of the experimental data to measure the topography of the secondary field with the results of the calculations are shown good their consistency.

Keywords: double electromagnetic acoustic transformation, magnetotlastic mechanism, components of the secondary electromagnetic field.

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V. A. Komarov (Physical-Technical Institute of the Branch of the Russian Academy of Sciences, Izhevsk, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

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1. Komarov V. A., Muzhitskii V. F., Gurevich S. Iu. (2000). The theory of physical fields. Vol. III. The related fields. Cheliabinsk–Izhevsk: Izdatel'stvo IuUrGU. [in Russian language]
2. Komarov V. A. (2017). Magnetoelastic electromagnetic acoustic transformation. Part 2. Acoustic field created with Joule effect. Kontrol'. Diagnostika, (8), pp. 34-43. doi: 10.14489/td.2017.08.pp.034-043 [in Russian language]
3. Bozort R. (1956). Ferromagnetism. Moscow: Inostrannaia literatura. [in Russian language]
4. Komarov V. A. (2014). Modeling manifestations of electromagnetic-acoustic transformation in metals. Part 4. Kontrol'. Diagnostika, (10), pp. 36- 43. doi: 10.14489/td.2014.010.pp.036-044 [in Russian language]
5. Bins K., Laurenson P. (1970). Analysis and calculation of electric and magnetic fields. Moscow: Energiia. [in Russian language]
6. Muzhitskii V. F., Remezov V. B., Komarov V. A. (2006). Basics of EMAT thickness gauging using probes. I. Direct EMA transducers in a normal polarizing field. Defektoskopiia, (10), pp. 40-58. [in Russian language]
7. Komarov V. A. (2013). Modeling manifestations of electromagnetic-acoustic transformation in metals. Part 2. Kontrol'. Diagnostika, (12), pp. 17-24. [in Russian language]
8. Il'iasov R. S., Komarov V. A. (1982). Topography of the electromagnetic field at the boundary of ferromagnet-air determined by bulk shear waves. Defektoskopiia, (10), pp. 49-54. [in Russian language]

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