التفاصيل البيبلوغرافية
| العنوان: |
USE OF THE PASS-THROUGH METHOD TO SOLVE SOUND RADIATION PROBLEMS OF A SPHERICAL ELECTRO-ELASTIC SOURCE OF ZERO ORDER. |
| المؤلفون: |
Korzhyk, Oleksii, Naida, Sergey, Kurdiuk, Sergii, Nizhynska, Valeriia, Korzhyk, Maxim, Naida, Anton |
| المصدر: |
EUREKA: Physics & Engineering; 2021, Issue 5, p133-146, 14p |
| مصطلحات موضوعية: |
RADIATION, ACOUSTICS, TRANSDUCERS, PIEZOELECTRIC devices, WATER power |
| مستخلص: |
In the article was solved the problem of radiation of a sound by the electroacoustic transducer which is executed in the form of a thin spherical cover, using a pass-through method. The outer and inner surfaces of the shell are completely electroded. The application of this method provides an opportunity to avoid inaccuracies that arise during the traditional formulation of boundary conditions for acoustic mechanical fields, the use of equivalent substitution schemes and the absence of boundary conditions for the electric field in general. Given methodology eliminates these shortcomings by applying conjugation conditions, taking into account the types of electroding of the surfaces of piezoceramic transducers, the introduction of boundary conditions for current and voltage. The results of the solution demonstrate the high capabilities of this pass-through method, in terms of taking into account the peculiarities of determining the characteristics of these fields, values and dependences of the main complex characteristics of the electroelastic transducer, and auxiliary material constants of the piezoelectric material. The proposed approach is relevant, because it allows to increase the reliability of modeling the operating conditions of acoustic transducers in the context of wave problems of acoustics. Aim is to enhance the range of performances and build algorithms solving problems of stationary mode hydroelectroelasticity sound radiation. The expected results are presented in terms of improving approaches to studying the features of the oscillatory process of the active elements of sound-emitting systems and the accompanying effects of the transformation of interconnected fields involved in the formation of the acoustic signal in the liquid. [ABSTRACT FROM AUTHOR] |
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