662.74

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. 1. /20241 [4]
[5]. (magnetron sputtering) . ї (hot pressing and sintering) (. 2).
(, , ~ 20-60 %) [4-9]. , , .
20-1, . . 1. (), [1]. 80 % ~40 ( - ). . 25 %, - 0,5 /. , , 25 50 %. JSM-6480LV Hitachi S-800. INCA 350XT Oxford Instruments. Strata 201 , - SIMSmapIIIxP FEI Companyї.
( A020-1), , -
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020-1 (1820), ( 14113-78)
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020_1 .
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020-1 .
. 5. , , 020-1
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% %
K 8,42 23,11
Al K 54,52 66,60
Sn L 37,05 10,29
100,00
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. 6. Cu/ ї
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1. .., .. . .: , 2007. 316 .
2. .. . .: , 2007. 496 .
3. Ajayan P.M., Schadler L.S., Braun P.V. Nanocomposite science and technology. Weinheim: Wiley-VCH Verlag GmbH & Co. KGaA, 2003. . 230.
4. Deng C.F., Wang D.Z., Zhang X.X., Li A.B. Processing and properties of carbon nanotubes reinforced aluminum composites // Materials Science and Engineering. 2007. A 444. . 138-145.
5. Lijie Ci, Zhenyu Ryu, Neng Yun Jin-Phillipp, Manfred Ruhle Investigation of the interfacial reaction between multi-walled carbon nanotubes and aluminum // Acta Materialia. 2006. V. 54. . 5367-5375.
6. Yamamoto G., Omori M., Yokomizo K., Hashida T., Adachi K. Structural characterization and frictional properties of carbon nanotube/alumina composites prepared by precursor method // Materials Science and Engineering. 2007. . 1758-1762.
7. Zhou Sh., Zhang X., Ding Zh., Min Ch., Xu G., Zhu W. Fabrication and tribological properties of carbon nanotubes reinforced Al composites prepared by pressureless infiltration technique // Composites. 2007. . 301-306.
8. Akhlaghi F., Pelaseyyed S.A. Characterization of aluminum/graphite particulate composites synthesized using a novel method termed in-situ powder metallurgy // Materials Science and Engineering. 2004. . 258266.
9. .. 020-1 0102 // . . -. . . . . 2008. . 13. .
1. . 46-47.
10. .., .., .. . .: , 2002. 224 .
11. .. . .: ; , 2006. 376 .
: , 07-02-00906, 06-08-01433 ї.
.., .., .., .. ( ї) - .
5 2008 .
Vasyukov V.M., Isaeva E.Y., Kolmakov A.V., Stolyarov R.A., Tikhomirova K.V., Tkachev A.G., Shuklinov A.B. Methods of color metals and alloys modification by carbon nanostructures.
The methods of modification of a surface and under surface layers of color metals by carbon nanotubes have been worked out. The methods of implantation of carbon nanostructures in matrix up to 15 mkm depth by a cold rolling and galvanic have been used. The given methods allow modifying density of particle distribution, specific aria of phase border, texture, porosity, etc.
Key words: nanocomposites, carbon nanostructures, nanomaterials.
LITERATURE
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3. Ajayan P.M., Schadler L.S., Braun P.V. Nanocomposite science and technology. Weinheim: Wiley-VCH Verlag GmbH and Co. KGaA, 2003. P. 230.
4. Deng C.F., Wang D.Z., Zhang X.X., Li A.B. Processing and properties of carbon nanotubes reinforced aluminum composites // Materials Science and Engineering. 2007. A 444. P. 138-145.
5. Lijie Ci, Zhenyu Ryu, Neng Yun Jin-Phillipp, Manfred Ruhle Investigation of the interfacial reaction between multi-walled carbon nanotubes and aluminum // Acta Materialia. 2006. V. 54. P. 5367-5375.
6. Yamamoto G., Omori M., Yokomizo K., Hashida T., Adachi K. Structural characterization and frictional properties of carbon nanotube/alumina composites prepared by precursor method // Materials Science and Engineering. 2007. P. 1758-1762.
7. Zhou Sh., Zhang X., Ding Zh., Min Ch., Xu G., Zhu W. Fabrication and tribological properties of carbon nanotubes reinforced Al composites prepared by pressureless infiltration technique // Composites. 2007. P. 301-306.
8. Akhlaghi F., Pelaseyyed S.A. Characterization of aluminum/graphite particulate composites synthesized using a novel method termed in-situ powder metallurgy // Materials Science and Engineering. 2004. P. 258-266.
9. Stolyarov R.A. Raster electronic microscopy and microanalysis of antifriction aluminium alloys A020-1 and A010C2 // Tambov University Review. Series: Natural and Technical Sciences. 2008. Vol. 13. Issue. 1. P. 46-47.
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11. Rakov E.G. Nanotubes and fullerenes. M.: Universitetskaya Kniga; Logos, 2006. 376 p.