Search Results - "BOGUTA, D. L"

Surface morphology, composition and thermal behavior of tungsten-containing anodic spark coatings on aluminium alloy by Lukiyanchuk, I.V., Rudnev, V.S., Kuryavyi, V.G., Boguta, D.L., Bulanova, S.B., Gordienko, P.S.

“…Anodic spark coatings on aluminium alloy were prepared in aqueous electrolytes with sodium tungstate. The influence of boric acid addition in the electrolyte…”
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Anodic spark deposition of P, Me(II) or Me(III) containing coatings on aluminium and titanium alloys in electrolytes with polyphosphate complexes by Rudnev, V.S, Yarovaya, T.P, Boguta, D.L, Tyrina, L.M, Nedozorov, P.M, Gordienko, P.S

“…The aim of this study was to characterise the correlation between the molar ratio n=[polyphosphate]/[metal cation] in aqueous electrolyte and the growth…”
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Coatings based on niobium oxides and phosphates formed on niobium alloy by Rudnev, V. S., Boguta, D. L., Yarovaya, T. P., Nedozorov, P. M.

“…Coatings were formed by plasma electrolytic oxidation in electrolytes containing Ni(II) hexametaphosphate complexes. Depending on the n = [P 6 O 18 6− ]]/[Ni…”
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Current Mode Effect on the Composition and Characteristics of Anodic-Spark Coatings by Boguta, D L, Rudnev, V S, Gordienko, P S

“…The effect of direct, alternating (50 Hz), and half-wave rectified (50 Hz) current on the composition and parameters of anodic-spark layers on aluminum alloy…”
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On the Thickness of Anodic-Spark Coatings as Formed in Polyphosphate Electrolytes by Rudnev, V S, Boguta, D L, Gordienko, P S

“…The data on the thickness of coatings on an aluminum alloy and titanium are presented as functions of the molar ration = [polyphosphate]/[cation of metal] in…”
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Spark-Anodic Oxide Coatings Formed on Al and Ti Alloys in Tungstate-Containing Phosphate-Vanadate Baths by Rudnev, V S, Lukiyanchuk, I V, Boguta, D L, Kon'shin, V V, Rudnev, A S, Gordienko, P S

“…Oxide coatings superficially, enriched with P, V, or W, were formed on aluminum and titanium alloys by their spark-anodizing in aqueous baths containing…”
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The Effect of Polyanions Structure in the Bath on the Composition of Anodic-Spark Coatings by Rudnev, V S, Morozova, V P, Kaidalova, T A, Boguta, D L, Gordienko, P S

“…The effect of replacing Ni(II) hexametaphosphate in a formation bath with complex heteropolyoxianions [PV^sub 14^O^sub 42^]^sup 9-^ on the elemental and phase…”
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Effect of the polyphosphate/Me molar ratio in an aqueous electrolyte on the composition of anodic-spark layers at aluminum alloys by RUDNEV, V. S, YAROVAYA, T. P, BOGUTA, D. L, PANIN, E. S, GORDIENKO, P. S

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Formation of Anodic Layers with Mn, Mg and P on Titanium and Aluminum by Tyrina, L M, Rudnev, V S, Abozina, E A, Yarovaya, T P, Boguta, D L, Panin, E S, Gordienko, P S

“…It is shown that by varying the molar ratio n= [polyphosphate]/[Me(II)] in aqueous electrolytes it is possible to control the contents of Mg, Mn, P, Al and Ti…”
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Comparison analysis of formation and some characteristics of microplasma coatings on aluminum and titanium alloys by Terleeva, O P, Belevantsev, V I, Slonova, A I, Boguta, D L, Rudnev, V S

“…The electrolyte and parameters of high-voltage anodic-cathodic process, which enable one to apply rather thick (to 340 μm) oxide coatings to titanium alloys,…”
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Biocidal Properties of Anodic-Spark Layers with Phosphorous and Me(II) on an Aluminum Alloy by Rudnev, V S, Yarovaya, T P, Morozova, V P, Boguta, D L, Nikitin, V M, Koryakova, M D, Speshneva, N V, Suponina, A P, Gordienko, P S

“…The effect of Me acetates concentration (Me-Mg^sup 2+^, Mn^sup 2+^, Ni^sup 2+^, Cu^sup 2+^, Sr^sup 2+^, Cd^sup 2+^, Ba^sup 2+^, Pb^sup 2+^, and Y^sup 3+^) and…”
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Anodic layers formed in polyphosphate electrolytes on rectifying metals by Rudnev, V. S., Boguta, D. L., Nedozorov, P. M., Kaidalova, T. A.

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Effect of ac Polarization on Characteristics of Coatings formed from Polyphosphate Electrolytes of Ni(II) and Zn(II) by Boguta, D. L., Rudnev, V. S., Terleeva, O. P., Belevantsev, V. I., Slonova, A. I.

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Zirconium-containing oxide layers on titanium by Rudnev, V. S., Boguta, D. L., Kilin, K. N., Nedozorov, P. M., Yarovaya, T. P.

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