Abstract and keywords
Abstract (English):
The article presents the results of a study of nanopowder ball-bearing steel obtained by electro erosion dispersing of rejected bearings in distilled water. It is established that the nanopowder comprises particles of spherical shape, which significantly expands the scope of its application.

Keywords:
nanopowder, electroerosion dispersion, ball-bearing steel
References

1. Zholdoshov B.M. Osobennosti termotsiklicheskoy obrabotki stali ShKh15 / B.M. Zholdoshov, V.S. Muratov, M.S. Kenis. Zagotovitel´nye proizvodstva v mashinostroenii. 2012. № 3. S. 29-32

2. Vodovozova G.S. Struktura i mekhanicheskie svoystva sredneuglerodistoy podshipnikovoy stali / G.S. Vodovozova, P.A. Zhdanov, O.V. Livanova, G.A. Filippov, G.S. Belousov. Tekhnologiya kolesnykh i gusenichnykh mashin. – 2013. – № 6. – S. 45-48.

3. Metallicheskie poroshki i poroshkovye materialy: spravochnik /B.N. Babich, E.V. Vershinina, V.A. Glebov i dr. - M.: EKOMET, 2005.- 520 s. - ISBN 5-89594- 122-2.

4. Ul´tradispersnye sistemy: poluchenie, svoystva, primenenie: Uch. posobie / Ryzhonkov D.I., Levina V.V., Dzidziguri E.L. – M.: MISiS, 2006. – 182 s.

5. Nanotekhnologiya. Fizika khimiya nanoklasterov, nanostruktur i nanomaterialov / Suzdalev I.P. - M.: KomKniga, 2006. 592 s.

6. Ageeva E.V. Morphology of Copper Powder Produced by Electrospark Dispersion from Waste / E.V. Ageeva, E.V. Ageev, N.M. Horyakova. Russian Engineering Research, 2014, Vol. 34, No. 11, pp. 694–696.

7. Ageev E.V. Elektroerozionnoe dispergirovanie – perspektivnaya tekhnologiya pererabotki vybrakovannykh podshipnikov / E.V. Ageev, S.V. Khardikov, S.V. Pikalov. Al´ternativnye istochniki energii v transportno-tekhnologicheskom komplekse: problemy i perspektivy ratsional´nogo ispol´zovaniya. 2015. T. 2. № 1. S. 314-317.

8. Khor´yakova N.M. Morfologiya i elementnyy sostav mednogo poroshka, poluchennogo metodom elektroerozionnogo dispergirovaniya / N.M. Khor´yakova, V.S. Malyukhov. Sovremennye materialy, tekhnika i tekhnologiya: sb. mater. 3-y Mezhdunar. nauch.-prakt. konf. 2013. S. 388-390.

9. Khor´yakova N.M. Primenenie mednykh poroshkov i zavisimost´ ikh svoystv ot razmera chastits / N.M. Khor´yakova, V.S. Malyukhov. Perspektivnoe razvitie nauki, tekhniki i tekhnologiy: mater. 3-y Mezhdunar. nauch.-prakt. konf. 2013. S. 358-362.

10. Novikov E.P. Izuchenie formy i morfologii poroshka, poluchennogo iz otkhodov alyuminiya metodom elektroerozionnogo dispergirovaniya / E.P. Novikov, E.V. Ageeva, D.A. Chumak-Zhun´. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta. Seriya: Tekhnika i tekhnologii. 2015. № 4 (17). S. 13-17.

11. Novikov E.P. Istoricheskie aspekty polucheniya poroshkov iz tokoprovodyashchikh otkhodov proizvodstva metodom elektroerozionnogo dispergirovaniya / E.P. Novikov. Sovremennye materialy, tekhnika i tekhnologii. 2016. № 1 (4). S. 170-177.

12. Patent 2449859, Rossiyskaya Federatsiya, C2, B22F9/14. Ustanovka dlya polucheniya nanodispersnykh poroshkov iz tokoprovodyashchikh materialov / Ageev E.V.; zayavitel´ i patentoobladatel´ Yugo-Zapadnyy gosudarstvennyy universitet. – № 2010104316/02; zayav. 08.02.2010; opubl. 10.05.2012. – 4 s.

Login or Create
* Forgot password?