Infl uence of physical characteristics of responsible ridins on electric authorities of hydroacoustic radiator with internal screens
DOI:
https://doi.org/10.34169/2414-0651.2020.3(27).77-84Keywords:
piezoceramic hydroacoustic emitter, internal screen, physical characteristics of filling liquidsAbstract
The results of researches by numerical methods of properties of electric fields of piezoceramic hydroacoustic radiators with internal screens depending on physical characteristics of the liquids filling internal volumes of designs of radiators are presented. Compared to water-filled, the studied structures are filled with lighter (kerosene) and heavier (glycerin) than water liquids with large, medium and small volumes of filling. In a wide range of frequencies, regularities of changes in total current and its capacitive and dynamic components depending on the volumes of liquids and their wave resistances are established. The peculiarities of these changes and the physical causes of their origin are determined. The importance of the obtained results for the control of the emitter parameters during their manufacture and modernization is shown.
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References
Bogorodskii, V. V. (1983). “Podvodnye elektroakusticheskie preobrazovateli. Raschet i proektirovanie. Spravochnik” [Underwater electroacoustic transducers. Calculation and design. Directory]. Sudostroenie, Leningrad. 248 p.
Grinchenko, V. T., Ulitko, A. F. & Shulga, N. A. (1989). “Mehanika sviazannyh polei v elementah konstrukcii: T. 5. Elektrouprugost” [The mechanics of related fi elds in structural elements: Vol. 5. Electroelasticity], Naukova dumka, K. 280 p.
Grinchenko, V. T., Vovk, I. V. & Matsypura, V. T. (2018). Acoustic Wave Problems. Begell House. 439 p.
Aronov B. (2006). Experimental methods for investigating the acoustical interaction between transducers. J. Acoust. Soc. Am. 119 (6). Pp. 3822−3830.
Sherman, C. H. & Butler, J. L. (2007). Transducers and Arrays for Underwater Sound. New York, SpringerVerlag Publ. 680 p. DOI: 10.1007/978-0-387-33139-3.
Leiko, A., Derepa, A. & Averichev, I. (2019). Mutual infl uence of electrical, mechanical and acoustics fi elds under the radiation of sound by circular systems with screen, formed from cylindrical piezoceramics radiators. Interdisciplinary Studies of Complex Systems. No 14. Рp. 35−52. DOI:https://doi.org/10.31392/iscs. 2019.14.035.
Korzhik, A. V., Kuroedova, T. S. & Filippova, N. Ju. (2013). “Issledovanie elektromehanicheskih harakteristik izluchaiushhego cilindricheskogo pezokeramicheskogo preobrazovatelia s polnostіu elektrodirovannoi poverhnostіu, raspolozhennogo v zamknutom kolcevom sloe” [Investigation of the electromechanical characteristics of a radiating cylindrical piezo-ceramic transducer with a fully electrode surface, located in a closed ring layer]. Elektronika i svЇaz. No 1. Pp. 102−109.
Didkovskyі, V., Naida, S., Drozdenko, O. & Drozdenko, K. (2020). Experimental researching of biological object noninvasive passive acoustothermomentry features. Eastern-European J. of Enterprise Technologies. Pp. 6−12, 1/5 (97). DOI: 10.15587/1729- 4061.2020.192594.
Leiko, O., Derepa, A., Pozdnіakova, O. & Starovoit, Y. (2019). Acoustics Fields of Circular Cylindrical Hydroacoustic system with Screen Formed from Cylindrical Piezoceramic Radiators, Rom. J. of Acoustics and Vibration. Vol. 15. No. 1(2018). P. 41−46 (in English).
Gusak, Z., Leiko, A., Derepa, A. & Didkovskyi, V. (2019). Physical fi elds of transceiver systems of piezoceramic electroacoustical transducers. Vol. 1. Cylindrical transducers with outer acoustic screen. K. : Burago Publ. House. 309 p.
Derepa, A. V., Averichev, I. V., Leiko, A. G., Kizima, D. M. & Sviatnenko, A. O. (2018). “Svoistva cilindricheskih gidroakusticheskih preobrazovatelei s vnutrennimi podatlivymi ekranami” [Properties of cylindrical hydroacoustic transducers with internally pliable shields]. Ozbroiennia ta vЇiskova tehnЇka. No 4(29). Pp. 40−46.
Koryakyn, Yu. A., Smyrnov, S. A. & Yakovlev, H. V. (2005). «Korabelnaia hydroakustycheskaia tekhnyka: sostoyanye Ї aktualnye problemy» [Ship hydroacoustic equipment: state and current]. Nauka, St. Petersburg. 410 p.
Zinkovskii, A. P. (1992). Distortion of the sinusoidalness of the form of vibrations systems with a disturbed rotary symmetry and the mode localization phenomenon. Report 1. Strength Mater, 24. No 10. Pp. 613−620.
Chepkov, I. B., Lapitskii, S. V., Zinkovskii, A. P., Leiko, A. G. & Derepa, A. V. (2019). Analysis of resonance states of the system of hydroacoustic piezoceramic radiators taking into account their interaction with the screen. Strength Mater. No 6. Pp. 25−35.
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Copyright (c) 2020 Анатолій Дерепа,Вадим Каніщев,Олександр Лейко,Катерина Шишкова,Олександр Дрозденко
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