Volume 93, №4
ULTRASONIC INTENSIFICATION OF LOW-TEMPERATURE PLASMA SYNTHESIS OF CERAMIC-LIKE COATINGS OF VALVE METALS
The authors have presented a method of ultrasonic intensifi cation of anode–cathode interactions during the formation, in water–alkali electrolytes, of ceramic-like coatings on the surface of valve metals in the process of lowtemperature plasma synthesis. An algorithm of directional infl uence of high-energy fi elds on the distinctive features and rate of chemical reactions at the electrolyte–metal–coating interface through changing the solution′s state by ultrasonic pulses in the process of anodic microarc oxidation has been developed. The authors have elucidated the mechanism and have determined the character and level of effect of the proposed intensifi cation on the dynamics of growth of a coating under low-temperature-plasma conditions of a liquid medium. It has been shown that mechanical (ultrasonic) activation of the electrolyte is responsible for the intensifi cation of the process of transfer of charge carriers, which are primarily electrolyte ions. Procedures and equipment have been described using which the values of an ultrasonic signal formed under various conditions were recorded. The nature of more intense buildup in the thickness of a ceramic-like coating with reduced energy expenditure to form it has been elucidated. This is explained by the appearance in the electrolyte, during its ultrasonic activation, of the great number of high-frequency damped oscillations of irregular waveform with a high amplitude as far as the current is concerned (5 A or higher), which is attributable to the occurrence of a synergetic effect
Author: N. M. Chigrinova and V. E. Chigrinov
Keywords: ultrasonic intensifi cation, high-frequency damped oscillations of irregular waveform, oscillograms, sweep
Page: 980
N. M. Chigrinova and V. E. Chigrinov .
ULTRASONIC INTENSIFICATION OF LOW-TEMPERATURE PLASMA SYNTHESIS OF CERAMIC-LIKE COATINGS OF VALVE METALS //Journal of engineering physics and thermophysics.
. Volume 93, №4. P. 980 .
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