Structure and properties of surface alloys in Ti-Y system

Abstract

The doping of the surface layer of titanium by the yttrium, oxygen and carbon was implemented. Irradiation of the doped layer by intense electron beam leads to the formation of the multiphase structure and the nano-submicron range having a high microhardness (at 3-fold higher than the hardness of the original structure) and a low coefficient of friction (6 times lower than the friction coefficient of the starting material).

Original language	English
Title of host publication	Advanced Materials Research
Publisher	Trans Tech Publications Ltd
Pages	229-233
Number of pages	5
Volume	1013
ISBN (Print)	9783038351917, 9783038351917
DOIs	https://doi.org/10.4028/www.scientific.net/AMR.1013.229
Publication status	Published - 2014
Event	International Scientific Workshop Structure and Properties of Metals at Different Energy Effects and Treatment Technologies - Tomsk, Russian Federation Duration: 29 Sep 2014 → 30 Sep 2014

Publication series

Name	Advanced Materials Research
Volume	1013
ISSN (Print)	10226680
ISSN (Electronic)	16628985

Other

Other	International Scientific Workshop Structure and Properties of Metals at Different Energy Effects and Treatment Technologies
Country	Russian Federation
City	Tomsk
Period	29.9.14 → 30.9.14

Keywords

Electric explosion
Electron beam treatment
Phase composition
Structure
Surface

ASJC Scopus subject areas

Engineering(all)

Access to Document

10.4028/www.scientific.net/AMR.1013.229

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Structure and properties of surface alloys in Ti-Y system. / Ivanov, Yurii; Teresov, Anton; Ivanova, Olga; Gromov, Victor; Raikov, Sergey; Sosnin, Konstantin; Semina, Olga; Alsaraeva, Kseniya.

Advanced Materials Research. Vol. 1013 Trans Tech Publications Ltd, 2014. p. 229-233 (Advanced Materials Research; Vol. 1013).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ivanov, Y, Teresov, A, Ivanova, O, Gromov, V, Raikov, S, Sosnin, K, Semina, O & Alsaraeva, K 2014, Structure and properties of surface alloys in Ti-Y system. in Advanced Materials Research. vol. 1013, Advanced Materials Research, vol. 1013, Trans Tech Publications Ltd, pp. 229-233, International Scientific Workshop Structure and Properties of Metals at Different Energy Effects and Treatment Technologies, Tomsk, Russian Federation, 29.9.14. https://doi.org/10.4028/www.scientific.net/AMR.1013.229

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abstract = "The doping of the surface layer of titanium by the yttrium, oxygen and carbon was implemented. Irradiation of the doped layer by intense electron beam leads to the formation of the multiphase structure and the nano-submicron range having a high microhardness (at 3-fold higher than the hardness of the original structure) and a low coefficient of friction (6 times lower than the friction coefficient of the starting material).",

keywords = "Electric explosion, Electron beam treatment, Phase composition, Structure, Surface",

author = "Yurii Ivanov and Anton Teresov and Olga Ivanova and Victor Gromov and Sergey Raikov and Konstantin Sosnin and Olga Semina and Kseniya Alsaraeva",

year = "2014",

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language = "English",

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series = "Advanced Materials Research",

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AU - Ivanov, Yurii

AU - Teresov, Anton

AU - Ivanova, Olga

AU - Gromov, Victor

AU - Raikov, Sergey

AU - Sosnin, Konstantin

AU - Semina, Olga

AU - Alsaraeva, Kseniya

PY - 2014

Y1 - 2014

N2 - The doping of the surface layer of titanium by the yttrium, oxygen and carbon was implemented. Irradiation of the doped layer by intense electron beam leads to the formation of the multiphase structure and the nano-submicron range having a high microhardness (at 3-fold higher than the hardness of the original structure) and a low coefficient of friction (6 times lower than the friction coefficient of the starting material).

AB - The doping of the surface layer of titanium by the yttrium, oxygen and carbon was implemented. Irradiation of the doped layer by intense electron beam leads to the formation of the multiphase structure and the nano-submicron range having a high microhardness (at 3-fold higher than the hardness of the original structure) and a low coefficient of friction (6 times lower than the friction coefficient of the starting material).

KW - Electric explosion

KW - Electron beam treatment

KW - Phase composition

KW - Structure

KW - Surface

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BT - Advanced Materials Research

PB - Trans Tech Publications Ltd

T2 - International Scientific Workshop Structure and Properties of Metals at Different Energy Effects and Treatment Technologies

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