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Specific effects of high-energy gas plasma flows on the properties of the piezoelectric ceramics
Russian version
Sotnikova G. Yu. 1, GavrilovG. A. 1, Zaitseva N. V. 1, Passet R. S. 1,2, Sotnikov Andrei V. 2
1Ioffe Institute, St. Petersburg, Russia
2Emperor Alexander I St. Petersburg State Transport University, St. Petersburg, Russia
Email: gga_holo@mail.ru, nvz47@yandex.ru, rostislav.passet@mail.ru, andrew.sotnikov2014.yandex.ru
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The study of the influence of repeated high-energy (0.4 MJ/m2) gas plasma flows on the main material parameters of the industrial piezoelectric CTSNV-1 and CTS-19 ceramics is presented. The preservation of the crystalline structure and polarization of the samples under repeated extreme thermal load plasma exposure is experimentally confirmed. A small decrease in the main material parameters of the ceramic samples is observed during the first 10 pulses of the exposure, as well as their subsequent return and stabilization at the near-initial levels with a further increase in the number of pulses up to 80. It is assumed that this effect is associated with the observed modification of the surface layer microstructure of the ceramic, which stabilizes by the 10-20 th pulse of exposure regardless of the plasma-forming gas composition. Keywords: piezoelectric ceramics, gas plasma, surface modification, extreme thermal loads, material parameters.
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