Simulation of Vibration Systems under Temperature Exposure

Low-frequency power ultrasonic systems are applied in various areas of industry due to their ability to improve different technologies and realize unique technological processes. In some cases ultrasonic instrument, which realizes such technologies, operates under temperature exposure which affects...

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Vydáno v:IEEE NW Russia Young Researchers in Electrical and Electronic Engineering Conference s. 1093 - 1096
Hlavní autoři: Vjuginova, Alena A., Durukan, Yasemin, Abbakumov, Konstantin E.
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: IEEE 25.01.2022
Témata:
Cooling
Instruments
power ultrasound
Temperature
Temperature dependence
Titanium alloys
transfer matrix method
Ultrasonic imaging
ultrasonic sonotrode
ultrasonic technology
Vibrations
ISSN:2376-6565
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Shrnutí:Low-frequency power ultrasonic systems are applied in various areas of industry due to their ability to improve different technologies and realize unique technological processes. In some cases ultrasonic instrument, which realizes such technologies, operates under temperature exposure which affects its mechanical and in consequence acoustical properties. To provide efficiency of power ultrasonic system operation it is necessary to realize accurate simulation of ultrasonic instrument parameters. In the present paper parameters of rod-type vibration systems which exposed to elevated temperature action at the part of their length are considered. By transfer matrix method eigenfrequency properties of low frequency vibration systems are studied for different variants of temperature exposure and cooling conditions, for different materials. The same method could be applied for simulation of others types of vibration systems under different conditions of temperature action.
ISSN:2376-6565
DOI:10.1109/ElConRus54750.2022.9755517