Development and production of the prototype hardware for wear-resistant nanostructured ceramics of grinding bodies of small size
( Pp. 64-68)
More about authors
Pirozhkova Tatyana Sergeevna
aspirantka
scientific education center «Nanotechnology and nanomaterials», Tambov State University named after G.R. Derzhavin Makeeva Marya Alexandrovna studentka 4 kursa
Tambov State University named after G.R. Derzhavin
scientific education center «Nanotechnology and nanomaterials», Tambov State University named after G.R. Derzhavin Makeeva Marya Alexandrovna studentka 4 kursa
Tambov State University named after G.R. Derzhavin
Abstract:
The paper describes a new operating model laboratory plant for the production of wear-resistant grinding bodies of small size of high nanostructured ceramics. Received feelers ceramic balls of small sizes. The method of nano- and Microindentation defined physical and mechanical properties of ceramics
How to Cite:
Pirozhkova T.S., Makeeva M.A., (2015), DEVELOPMENT AND PRODUCTION OF THE PROTOTYPE HARDWARE FOR WEAR-RESISTANT NANOSTRUCTURED CERAMICS OF GRINDING BODIES OF SMALL SIZE. Computational Nanotechnology, 4 => 64-68.
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Surmeneva M.A., Surmenev R.A., Mukhametkaliyev T.M., Oehr C., Tyurin A.I., Pirozhkova T.S., Shuvarin I.A., Teresov A.D., Koval N.N. Comparative study of the radio-frequency magnetron sputter deposited cap films fabricated onto acid-etched or pulsed electron beam-treated titanium // Thin Solid Films. 2014. V. 571. № P1. P. 218-224.
Surmeneva M.A., Mukhametkaliyev T.M., Surmenev R.A., Tyurin A.I., Pirozhkova T.S., Shuvarin I.A., Syrtanov M.S. Enhancement of the mechanical properties of az31 magnesium alloy via nanostructured hydroxyapatite thin films fabricated via radio-frequency magnetron sputtering // Journal of the Mechanical Behavior of Biomedical Materials. 2015. V. 46. P. 127-136.
Ivanova A. A., Surmeneva M.A., Tyurin A.I.,.Pirozhkova T.S, Shuvarin I.A., Prymak O., Epple M., Chaikind M.V., Surmenev R.A. Fabrication and physico-mechanical properties of thin magnetron sputter deposited silver-containing hydroxyapatite films //Applied Surface Science. - 2016. V. 360. R. 929-935
Nazarov V.I., Ragozina N.M., Makarenkov D.A., CHetvertakov G.V., Stavrovskiy M.E. Pererabotka i utilizatsiya dispersnykh materialov i tverdykh otkhodov M.: Al fa-M, infra-M, 2014. 464 s.
Dmitrak YU.V., Verzhanskiy A.P. Tendentsii primeneniya oborudovaniya dlya tonkogo izmel cheniya gornykh porod //Gornyy informatsionno-analiticheskiy byulleten (nauchno-tekhnicheskiy zhurnal). - 2000. T. 6. C. 52-56
Pryadko N. S., Strel nikov G.A., Ternovaya E.V., Grushko V.A., Pyasetskiy N.YU. Otsenka skorosti tonkogo izmel cheniya rud mel nitsami razlichnykh tipov //Tekhnicheskaya mekhanika. 2014. №. 3. S. 114-121.
Domkin K. I., YUrkov N. K. Modelirovanie protsessa sukhogo izmel cheniya poroshkovykh materialov //Izvestiya vysshikh uchebnykh zavedeniy. Fiziko-matematicheskie nauki. 2012. №. 1. C. 131-138
Basu B., Kalin M. Tribology of ceramics and composites: materials science perspective. - John Wiley Sons, 2011. 532 p.
Krasulin YU.L. Poristaya konstruktsionnaya keramika. M.: Metallurgiya, 1980. 100 s.
Latifa Melk, Joan Josep Roa Rovira, Marta-Lena Antti, Marc Anglada. Coefficient of friction and wear resistance of zirconia-MWCNTs composites // Ceramics International. 2015. V.41. P. 459-468.
Golovin YU.I., Tyurin A.I. Sovremennye problemy nano- i mikrotverdosti tverdykh tel // Materialovedenie. 2001. № 1. S. 14.
Tyurin A.I., Vorob ev M.O., Pirozhkova T.S. Razrabotka i izgotovlenie lineyki kombinirovannykh priborov dlya izmereniya fiziko-mekhanicheskikh svoystv materialov v mikro- i nanoshkale // Computational nanotechnology. 2015. № 2. S. 42-45
Tyurin A.I., Pirozhkova T.S., SHuvarin I.A. Novye kombinirovannye pribory po dinamicheskomu nanoindentirovaniyu i rezul taty issledovaniya kinetiki formirovaniya otpechatka, mikromekhanizmov plastichnosti i razrusheniya tverdykh tel v mikro- i nanoshkale // Computational nanotechnology. 2015.№ 3. S. 45-50.
Golovin YU.I., Ivolgin V.I., Korenkov V.V., Tyurin A.I. Opredelenie vremyazavisimykh plasticheskikh svoystv tverdykh tel posredstvom dinamicheskogo nanoindentirovaniya // Pis ma v ZHurnal tekhnicheskoy fiziki. 1997. T. 23. № 16. S. 15-19.
Doshi J., Reneker D. H. Electrospinning process and applications of electrospun fibers //Industry Applications Society Annual Meeting, 1993., Conference Record of the 1993 IEEE. - IEEE, 1993. P. 1698-1703.
Fang J., Zhang Li, Sutton D., Wang X., Lin T. Needleless Melt-Electrospinning of Polypropylene Nanofibres // Journal of Nanomaterials. 2012. P. 9.
Oliver W.C., Pharr G.M. An Improved Technique for Determining Hardness and Elastic Modulus Using Load and Displacement Sensing Indentation Experiments // J. Mater. Res. 1992. V. 7. N 6. P. 1564-1583.
Oliver W.C., Pharr G.M. Measurement of hardness and elastic modulus by instrumented indentation: Advances in understanding and refinements to methodology // J. Mater. Res. 2004.V. 19. N 1.R. 3-20.
Golovin YU.I., Tyurin A.I. Dinamika nachal noy stadii mikroindentirovaniya ionnykh kristallov// Izvestiya Rossiyskoy akademii nauk. Seriya fizicheskaya. 1995. T. 59. № 10. S. 49.
Surmeneva M.A., Surmenev R.A., Mukhametkaliyev T.M., Oehr C., Tyurin A.I., Pirozhkova T.S., Shuvarin I.A., Teresov A.D., Koval N.N. Comparative study of the radio-frequency magnetron sputter deposited cap films fabricated onto acid-etched or pulsed electron beam-treated titanium // Thin Solid Films. 2014. V. 571. № P1. P. 218-224.
Surmeneva M.A., Mukhametkaliyev T.M., Surmenev R.A., Tyurin A.I., Pirozhkova T.S., Shuvarin I.A., Syrtanov M.S. Enhancement of the mechanical properties of az31 magnesium alloy via nanostructured hydroxyapatite thin films fabricated via radio-frequency magnetron sputtering // Journal of the Mechanical Behavior of Biomedical Materials. 2015. V. 46. P. 127-136.
Ivanova A. A., Surmeneva M.A., Tyurin A.I.,.Pirozhkova T.S, Shuvarin I.A., Prymak O., Epple M., Chaikind M.V., Surmenev R.A. Fabrication and physico-mechanical properties of thin magnetron sputter deposited silver-containing hydroxyapatite films //Applied Surface Science. - 2016. V. 360. R. 929-935
Keywords:
ceramics, nanoindentation, friction in nanoscale.
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