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HomeMaterials Science ForumMaterials Science Forum Vol. 906Modification of Silumin Using the Electroexplosive...

Modification of Silumin Using the Electroexplosive Method

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Abstract:

Surface modification of silumin of the grade AK12 with plasma formed during an electrical explosion of aluminum foil with a sample of yttrium oxide powder placed in the explosion region (the electroexplosive doping method) is carried out. The thermodynamic analysis of the system Al-Si-Y-O is carried out. The phases formed in this system under equilibrium conditions are revealed. Investigations of the elemental and phase composition and the defective substructure are carried out. Mechanical (microhardness) and tribological (wear resistance and friction coefficient) tests of the modified material are performed. The physical mechanisms responsible for multiple enhancement of surface properties of the modified silumin samples are revealed.

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Materials and Processing Technology

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Periodical:

Materials Science Forum (Volume 906)

Pages:

56-62

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.906.56

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Online since:

September 2017

Authors:

Аnatoliy A. Klopotov*, Yu.F. Ivanov, E.A. Petrikova, Victor Gromov, Yu.A. Kakushkin

Keywords:

Microhardness, Surface Modification, Tribological

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[1] Stroganov G B, Rotenberg V A, Gershman G B 1977 Aluminum alloys with silicon (Moscow: Metallurgiya) p.272.

[2] Belov N A, Savchenko S V, Hvan A V 2008 Phase composition and structure of silumins (Moscow: MISIS) p.282.

[3] Piston silumins: Textbook. Ed V K Afanasyev 2005 (Kemerovo: Polygraph) p.161.

[4] Gribkov V A, Grigoriev F I, Kalin B A, Yakushin V L 2001 Perspective radiation-beam technologies of metal processing (Moscow: Krugliy God) p.528.

[5] 2016 Evolution of the structure of the surface layer of steel subjected to electron-ion-plasma treatment methods Ed N N Koval, Yu F Ivanov (Tomsk: NTL) p.298.

[6] 2016 Electron-ion-plasma modification of the surface of non-ferrous metals and alloys Ed N N Koval, Yu F Ivanov (Tomsk: NTL) p.312.

[7] Bagautdinov A Ya, Budovskikh E A, Ivanov Yu F, Gromov V E 2007 Physical principles of electroexplosive doping of metals and alloys (Novokuznetsk: SibGIU) p.301.

[8] Gromov V E, Ivanov Yu F, Budovskikh E A Structure, phase composition, and properties of surface layers of titanium alloys after electroexplosive doping and electron-beam treatment 2012 (Novokuznetsk: Inter-Kuzbass) p.435.

[9] Budovskikh E A, Sarychev V D, Gromov V E, Nosarev P S, Martusevich E V 2002 Fundamentals of the technology for surface treatment of materials with pulsed heterogeneous plasma (Novokuznetsk: SibGIU) p.170.

[10] Zolotorevsky V S, Belov N A 2005 Metallurgy of aluminum casting alloys (Moscow: MISIS) p.376.

[11] Lyakishev N P 1996-2000 State diagrams of binary metal systems (Moscow: Mashinostroenie) 1-3.

[12] Gesc K A, Gschneidner Jr, and Calderwood F W. 1988 The Al-RE (Aluminum-Rare Earth) Systems, Bull. Alloy Phase Diagrams 9 658-68.

DOI: 10.1007/bf02883161

[13] Massalski Т В 1986-1987 Binary Alloy Phase Diagrams. American Society for Metals (Ohio: Metals Park) 1, 2 p.2224.

[14] Villars P, Calvert L D 1985 Pearson's Handbook of Crystallographic Data for Intermetallic Phases (Ohio: Metals Park) 1, 2, 3 p.3258.

[15] Muraveva A A Phase Equilibria and Crystal Structures in Ternary Systems Aluminum-Silicon (Germanium)-Rare Earth (in Ukrainian), Avtoref. Dis. Kand. Khim., Abstract of Thesis, Nauk Lvov, 1-22.

[16] Yanson T I Investigation of the Crystal Structures of the Aluminium-Silicides and -Germanides of the Rare-Earth Metals (in Russian), Avtoref. Dis. Kand. Khim., Abstract of Thesis, Nauk, Lvov, 1-22.

[17] Muraveva A A, Zarechnyuk O S, and Gladyshevski E I 1972 Compounds with the La2O2S-Type in the Systems: Rare Earth Metal-Aluminium-Silicon (in Russian), Visn. Lvivsk. Univ. Ser. Khim. 13 P 14-16.

[18] Dubenko I S, Evdokimov A A, and Titov Yu N 1985 Ln6Al3Si Compounds Russ. J. Inorg. Chem., 30 P 1707-09, translated from Zh. Neorg. Khim. 30 2996-97.

[19] Drits M E, Kuzmina V I, Tylkina N I 1980 Phase Equilibria in Aluminium-Rich Alloys of the Aluminium-Silicon-Yttrium System, Russ. Metall. 3 P 178-81, translated from Izv. Akad. Nauk SSSR, Met. 3 P 212-16.

[20] Ran Q 1987 Thermodynamic Calculations of Constitution Diagrams in the System Mg-Y-Al-C-Si-N-O Thesis, Univ. Stuttgart, FRG P 1-217.

[21] Laskovnev A P, Ivanov Yu F, Petrikova E A, et al 2013 Modification of the structure and properties of the eutectic silumin by electron-ion-plasma treatment (Minsk: Belorusskaya nauka) p.287.

[22] Orowan E 1948 Conditions for dislocation passage of precipitates, Proc. Symp. Intern. Stress in metals and alloys (London: Inst, met. ) P 451-54.