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Влияние озона и ультразвука на формирование и свойства анодного покрытия на алюминии и его сплавах..pdf

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4.
5.
2.
.,
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3.
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, 1988. 144 .
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. .:
.,
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, 1982. 248 .
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9.
-
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:
.,
3. . 301-306.
. 2004.
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,
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-
//
3. . 57-62.
. 2007.
//
.
8.
. 2003. . 24.
.
. 115744.
7.
1.
.,
.,
6.
.
//
.,
5. . 85-93.
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, 1996. 231 .
:
.,
//
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.,
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-
., 1999. 241 .
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1. . 69-72.
INFORMATION ABOUT THE PAPER IN ENGLISH
RESTORATION OF DIMENSION AND FORM OF PART BY COMBINED TREATMENT
Belevskiy L.S., Belevskaiy I.V., Ephimova Y.Y.
Abstract. Influence of possibility restoration of dimension and
form of part by combined treatment ? by knurling of roller with following cladding functional coating by flexible tool. That treatment to permit
increase diameter of wear part, receive ultra grain structure in surface
layer by IPD. Different functional coating may be cladding from pure
metals and alloys, composite or nanocomposite materials.
Keywords: restoration of dimensions, knurling, plastic deformation, friction cladding, coating, ultra grain structure.
5.
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2.
3.
4.
Hvorostuhin L.A., Shishkin S.V., Kovalev A.P., Ishmakov R.A. Povyshenie
nesushhej sposobnosti detalej mashin poverhnostnym uprochneniem. [Increase of bearing ability of details by superficial hardening]. Moscow: Mechanical engineering, 1988. 144 p.
Shneider U.G. Jekspluatacionnye svojstva detalej s reguljarnymmikrorel'efom. [Operational properties of details with a regular microrelief]. Leningrad: Mechanical engineering, 1982. 248 p.
Makarov A.V., Korshunov L.G. Povyshenie tverdosti i iznosostojkosti
zakalennyh lazerom stal'nyh poverhnostej s pomoshh'ju frikcionnoj
obrabotki. [Increase of hardness and wear resistance of the steel surfaces
tempered by the laser by means of frictional processing]. Trenie i iznos.
[Friction and wear], 2003, vol.24, no.3, pp. 301-306.
Makarov A.V., Korshunov L.G., Malygina I.Yu., Solodova I.L. Povyshenie
teplostojkosti i iznosostojkosti zakalennyh uglerodistyh stalej frikcionnoj
uprochnjajushhej obrabotkoj. [Increase of heat resistance and wear resistance tempered carbonaceous staly frictional strengthening processing]. Metallovedenie i termicheskaja obrabotka metallov. [Metallurgical science and heat treatment of metals]. 2007, no.3, pp. 57-62.
Pashinskaiy E.G., Tolpa A.A. Vozmozhnosti intensivnoj prokatki so
sdvigom dlja formirovanija ul'tramelkozernistoj struktury na primere
jevtektoidnoj stali. [Vozmozhnosti's crowd of intensive rolling with shift for
formation of ultrafine-grained structure on the example of evtektoidny
steel]. Metally. [Metals]. 2004. no.5. pp. 85-93.
Garkunov D.N., Lozovsky V.I. Ampere-second 115744. Sposob pridanija
poverhnosti metallov trushhihsja par protivozadirnyh svojstv. [Threw the
Way of giving of a surface of rubbing couples of anti-seize properties].
Belevskiy L.S. Plasticheskoe deformirovanie poverhnostnogo sloja i formirovanie pokrytija pri nanesenii gibkim instrumentom. [Plasticheskoye deformation of a blanket and covering formation when drawing by the flexible
tool]. Magnitogorsk: Russian Academy of Sciences lyceum, 1996. 231 p.
Antsupov V.P. Theory and practice of cladding by the flexible tool. Magnitogorsk: Magnitogorsk State Technical University named after G.I. Nosov.
1999. 241 p.
Platov S.I., Dyoma P.P., Zotov A.V. Model' formirovanija tolshhiny
plakirovannogo sloja na detaljah par trenija tehnologicheskogo
oborudovanija // [Model of the formation thickness clad Lauer for friction
pairs of process equipment]. Vestnik Magnitogorskogo gosudarstvennogo
tehnicheskogo universiteta im. G.I. Nosova. [Vestnik of Magnitogorsk
State Technical University named after G.I. Nosov], 2013, no.1. pp. 69-72.
7.
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INFORMATION ABOUT THE PAPER IN ENGLISH
OZONE AND ULTRASOUND INFLUENCE ON FORMING AND PROPERTIES OF ANODE
COATING ON ALUMINUM AND ITS ALLOYS
Kolenchin N.Ph., Kuskov V.N., Safronov A.V., Shadrina P.N.
Abstract. The time dependences of oxide coating growth during
anodization of aluminum A3 and alloy D16 in aqueous solution of sulfuric acid with aeration of the solution by a ozone-aerial mixture are studied. Thickness, microhardness and wearproofness of the coating are
increased thanks to intensification of the anodization processes. Ultra-
.
.
. 2013.
2
sonic influence simultaneously with aeration of the electrolyte by the
ozone-aerial mixture increases microhardness and wearproofness of the
coating.
Keywords: anodization, aluminium alloy, ozone-aerial mixture, ultrasound, oxide coating, microhardness, wearproofness, thickness.
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