LDR 11682nam#a2200913#i#450# 001 970 005 20241126235936.2 008 _ 20171115d2017####ek#y0engy0150####ca 020 ## _$a978-5-369-01715-9 041 0# _$aRUS 044 ## _$axxu 080 ## _$aФизика. 53 _$aХимия. Кристаллография. Минералогия. Минераловедение. 54 084 ## _$aФизическая химия. Химическая физика. 245 _2bbk 084 ## _$aХимия. 04.03.01 _2okso 084 ## _$aХимия, физика и механика материалов. 04.04.02 _2okso 084 ## _$aФизика. 613 _2tbk 084 ## _$aФизическая химия. Химическая физика. 626 _2tbk 084 ## _$aФизика твердых тел. 29.19 _2grnti 084 ## _$aФизическая химия. 31.15 _2grnti 084 ## _$aХимия высокомолекулярных соединений. 31.25 _2grnti 100 #1 _$aZhevtun, Ivan Gennad'evich _$aФГБУ Институт химии Дальневосточного отделения Российской академии наук 100 #1 _$aGordienko, Pavel Sergeevich _$aФГБУ Институт химии Дальневосточного отделения Российской академии наук 100 #1 _$aYarusova, S. B. _$aИнститут химии Дальневосточного отделения Российской академии наук 245 00 _$aFormation of wear-resistant composite coatings on titanium alloys in the electric arc treatment of aqueous electrolytes _$cMonography 260 1# _$aMoscow _$bPublishing Center RIOR _$c2017 300 ## _$a156 p. 500 ## _$aThe monograph presents the results of studying the formation process on titanium alloys of wear-resistant composite coatings based on titanium carbide during electric arc treatment in aqueous electrolytes. The regularities in the composition, structure, and functional properties of the surface during treatment are shown, as well as when doping the two-component Ti-TiC system with transition and valve metals. Theoretical representations of the plasma surface treatment of a metal surface are presented, including a review of the physicochemical mechanism and a thermodynamic analysis of the titanium carbide phase formation in the bulk of the titanium alloy. Some prospects for the practical application of electric arc composite Ti-TiC-coatings are shown. The work may be of interest to engineers, graduate students and researchers involved in the plasma treatment of metals and producing coatings, as well as experts of material science working in the field of creating and treatment new materials. _$atitanium alloys, composites, titanium carbide, wear-resistant coatings, antifriction properties, porous microstructure, plasma treatment, laser _$a10.12737/1715-9 510 0# _$aGorynin I. V. i dr. Titanovye splavy dlya morskoy tehniki / I.V. Gorynin, S. S. Ushkov, A.N. Hatuncev, N.I. Loshakova. SPb.: Politehnika, 2007. 387 s.: il. 510 0# _$aKollingz E. V. Fizicheskoe metallovedenie titanovyh splavov. Per. s angl. pod red. B. I. Verkina, V. A. Moskalenko. – M.: «Metallurgiya», 1988. 224 s. 510 0# _$aSolonina O. P., Glazunov S. G. Titanovye splavy. Zharoprochnye titanovye splavy. M.: «Metallurgiya», 1976. 448 s. 510 0# _$aParfenov O.G. 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