Effect of High-Voltage Nanosecond Pulses and Dielectric Barrier Discharges on the Structural State and Physicochemical Properties of Ilmenite Surfaces

Effect of High-Voltage Nanosecond Pulses and Dielectric Barrier Discharges on the Structural State and Physicochemical Properties of Ilmenite Surfaces

A study is performed of the mechanism behind the effect high-voltage nanosecond electromagnetic pulses and dielectric barrier discharges have on surfaces of ilmenite in air at atmospheric pressure. Fourier-transform infrared spectroscopy, scanning electron microscopy, electron microprobe analysis, m...

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Veröffentlicht in:Bulletin of the Russian Academy of Sciences. Physics 2021-09, Vol.85 (9), p.974-978
Hauptverfasser: Bunin, I. Zh, Chanturiya, V. A., Anashkina, N. E., Koporulina, E. V., Khachatryan, G. K.
Format: Artikel
Sprache:eng
Schlagworte:
Contact angle
Contact potentials
Dielectric barrier discharge
Electrokinetics
Electromagnetic pulses
Electron probe microanalysis
Electron probes
Fourier transforms
Hadrons
Heavy Ions
High voltages
Ilmenite
Infrared analysis
Microhardness
Morphology
Nanosecond pulses
Nuclear Physics
Physics
Physics and Astronomy
Titanium ores
Wetting
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Zusammenfassung:A study is performed of the mechanism behind the effect high-voltage nanosecond electromagnetic pulses and dielectric barrier discharges have on surfaces of ilmenite in air at atmospheric pressure. Fourier-transform infrared spectroscopy, scanning electron microscopy, electron microprobe analysis, microhardness testing, contact angles of surface wetting, and streaming potentials are used to examine the morphology of ilmenite, its physicochemical properties (microhardness, contact angle, and electrokinetic potential), and the structural state of ilmenite surfaces. Advantages are shown of using brief energy treatments ( t treat = 10–30 s) to modify the chemical structure of surfaces of ilmenite and its physicochemical properties in order to improve the efficiency of processing complex titanium ores.
ISSN:1062-8738
1934-9432
DOI:10.3103/S1062873821090069