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DOI: https://doi.org/10.15407/techned2018.01.030


SIMULATION OF ELECTROMAGNETIC-ACOUSTIC CONVERSION PROCESS UNDER TORSION WAVES EXCITATION. Part 2

Journal Tekhnichna elektrodynamika
Publisher Institute of Electrodynamics National Academy of Science of Ukraine
ISSN 1607-7970 (print), 2218-1903 (online)
Issue No 1, 2018 (January/February)
Pages 30 – 36

 

Authors
S.Yu. Plesnetsov1*, O.N. Petrishchev2, R.P. Mygushchenko1, G.M. Suchkov1
1– National Technical University “Kharkiv Polytechnic Institute”,
2, Kirpichova st., Kharkiv, 61002, Ukraine,
e-mail: Этот e-mail адрес защищен от спам-ботов, для его просмотра у Вас должен быть включен Javascript
2– National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”,
37, pr. Peremohy, Kyiv, 03056, Ukraine,
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* ORCID ID : http://orcid.org/0000-0001-8428-5426

 

Abstract

Mathematical modeling of the electromagnetic-acoustic transducer (EMAT) for excitation of nondispersive torsional waves in tubular electrically conductive ferromagnetic hollow rods of small diameter is performed taking into account all the factors that determine the design of the EMAT. The solutions of the differential equation for the values of the electromagnetic fields formed by the high-frequency coil of the device in the gap between the transducer and the tubular ferromagnetic product are found. The results of the research can be used to simulate and design exciting EMATs for measuring, monitoring, and diagnostics in the energy, nuclear, chemical and other industries for ultrasonic test of ferromagnetic tubular products. References 6, figures 4.

 

Key words: ultrasonic test, nondispersive torsional waves, mathematical simulation, electromagnetic-acoustic transducer, tubular product, wave characteristic of the transducer.

 

Received:     19.07.2017
Accepted:     10.10.2017
Published:   29.01.2018

 

References

1. A handbook on special functions with formulas, graphs and mathematical tables. Moskva: Nauka, 1979. 832 p. (Rus)
2. Bolyuh V.F., Oleksenko S.V., Schukin I.S. Comparative analysis of linear pulse electromechanical transducers of electromagnetic and induction types. Tekhnichna Elektrodynamika. 2016. No 5. Pp. 46-48. (Rus)
3. Koshlyakov N.S., Gliner E.B., Smirnov M.M. Equations in partial derivatives of mathematical physics. Moskva: Vysshaia shkola, 1970. 710 p. (Rus)
4. Mygushchenko R.P., Suchkov G.M., Petrischev O.N., Desyatnichenko A.V. Theory and practice of electromagnetic-acoustic control. Part 5. Features of designing and practical application of EMA devices for ultrasonic test of metal products. Kharkov: TOV Planeta-print, 2016 230 p. (Rus)
5. Ermolov I.N., Lange Yu.V. Nondestructive testing: Handbook: Vol. 3: Ultrazvukovoi kontrol. Moskva: Mashinostroenie, 2006. 864 p. (Rus)
6. Plesnetsov S.Yu., Petrischev O.N., Mygushchenko R.P., Suchkov G.M. Simulation of electromagnetic-acoustic conversion process under torsion waves excitation. Tekhnichna Elektrodynamika. 2017. No 3. Pp. 79–88. (Rus)

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