Obrabotka Metallov. 2016 no. 4(73)
ОБРАБОТКА МЕТАЛЛОВ № 4 (73) 2016 22 ОБОРУДОВАНИЕ. инструменты References 1. Rowe W.B. Principles of modern grinding technology. 2 nd ed. Oxford, Elsevier, 2014. 480 p. ISBN 978-0-12- 810166-7. 2. Popov V.Y., Khlystov A.N., Bondin A.V. Atomnaya vizualizatsiya almaznogo rezaniya [Atomic visualization diamond cutting]. Komp’yuternye issledovaniya i modelirovanie – Computer Research and Modeling , 2016, vol. 8, no. 1, pp. 161–172. 3. Chen J.H., Bernaerts D., Seo J.W., Tendeloo G. van, Kagi H. Voidites in polycrystalline natural diamond. Philosophical Magazine Letters , 1998, vol. 77 (3), pp. 135–140. doi: http://dx.doi.org/10.1080/095008398178561 4. Novikov N.V., Bogatyreva G.P., Il’nitskaya G.D., Nevstruev G.F., Petasyuk G.A., Tkach V.N., Bogdanov R.K., Isonkin A.M., Zakora A.P., Zaitseva I.N. Vklyucheniya v kristallakh sinteticheskikh almaznykh vysokoprochnykh poroshkov [Inclusions in crystals of synthetic diamond high-strength powders]. Fizika i tekhnika vysokikh davlenii – High Pressure Physics and Technics , 2009, vol. 19, no. 2, pp. 48–53. 5. Petrovskii V.A., Suharev A.E., Filonenko V.P., Vinogradov S.N. [Fundamental and applied study of micro- nanopolycrystalline diamond aggregates and their practical application]. Mineralogo-tekhnologicheskaya otsenka mestorozhdenii poleznykh iskopaemykh i problemy raskrytiya mineralov : sbornik statei po materialam V Rossiiskogo seminara po tekhnologicheskoi mineralogii [Proceedings of V Russian seminar on technological mineralogy “Min- eralogical and technological evaluation of useful mineral deposits and problems in mineral opening”], Petrozavodsk, 2011, pp. 190–196. ISBN 978-5-9274-0460-5. (In Russian) 6. Vins V.G. Opticheski aktivnye defekty v almaze – zakonomernosti ob-razovaniya i vzaimnoi transformatsii. Diss. dokt. fiz.-mat. nauk [The optically active defects in diamond – pattern formation and mutual transformation. Dr. phys. and math. sci. diss.]. Barnaul, 2011. 252 p. 7. Shiryaev А.А. Defekty i mikrovklyucheniya v almazakh kak indikatory uslovii kristalloobrazovaniya i postros tovykh izmenenii . Diss. dokt. khim. nauk [Defects and micro-inclusions in diamonds as indicators of crystallization conditions and post-growth changes. Dr. chem. sci. diss.]. Moscow, 2013. 251 p. 8. Solopova N.A. Kristallizatsiya almaza v karbonatnykh rasplavakh mine-ralogicheskogo znacheniya (eksperi ment pri 5,5–84,0 GPa) . Diss. dokt. tekhn. nauk [The crystallization of diamond in carbonate melts mineralogical value (experiment at 5,5–84,0 GPa). Dr. eng. sci. diss.]. Moscow, 2014. 112 p. 9. Novikov N.V., Bogatyreva G.P., Nevstruev G.F., Il’nitskaya G.D., Zaitseva I.N. Zavisimost’ prochnosti almaznykh shlifporoshkov ot struktury kristallov almaza [Dependence of diamond grinding powder strength on structure of diamond crystals]. Fizika i tekhnika vysokikh davlenii – High Pressure Physics and Technics , 2007, vol. 17, no. 2, pp. 96–99. 10. Novikov N.V., Bogatyreva G.P., Bogdanov R.K., Il’nitskaya G.D., Isonkin A.M. Vliyanie prochnostnykh kharakteristik almaznykh shlifporoshkov na rabotosposobnost’ burovogo instrumenta [The influence of strength characteristics of diamond grits on drilling tool performance]. Sverkhtverdye materialy – Journal of Superhard Ma terials , 2009, no. 6, pp. 75–80. (In Russian) 11. Zybinskii P.V., Bogdanov R.K., Zakora A.P., Isonkin A.M. Sverkhtverdye materialy v geologorazvedochnom burenii [Superhard materials in exploration drilling]. Donetsk, Nord-Press Publ., 2007. 244 p. 12. Bogatyreva G.P., Sizonenko O.N., Oleinik N.A., Petasyuk G.A., Il’nitskaya G.D., Shamraeva V.S., Bazalіi G.A., Taftai E.I., Zaichenko A.D., Torpakov A.S., Lipyan E.V. [The influence of high-voltage electrical dis- charge machining on morfomet-torical characteristics of diamond powder]. Porodorazrushayushchii i metalloobra batyvayushchii instrument – tekhnika i tekhnologiya ego izgotovleniya i primeneniya : sbornik nauchnykh trudov [Proceedings of the V. Bakul Institute for Superhard Materials of the National Academy of Sciences of Ukraine “Rock cutting and metalworking tools – equipment and technology of its manufacture and use”], 2011, iss. 14, pp. 272–277. (In Russian). 13. Popov V.Yu., Yanyushkin A.S., Zamashchikov Y.I. Diffusion phenomena in the combined electric diamond grinding. Applied Mechanics and Materials , 2015, vol. 799–800, pp. 291–298. doi: 10.4028/www.scientific.net/ AMM.799-800.291 14. Popov V.Y., Yanyushkin A.S. Adhesion-diffusion interaction of contact surfaces with the treatment diamond grinding wheels. Eastern European Scientific Journal , 2014, no. 2, pp. 301–310. doi: 10.12851/EESJ201404ART46 15. Popov V.Yu., Yanyushkin A.S. Combined electro-diamond grinding of high speed steels. International Jour nal of Advances in Machining and Forming Operations, 2012, vol. 4, no. 1, pp. 91–102. 16. Kholmurodov K., Ebisuzaki T., Puzynin I., Smith W., Yasuoka K. MD simulation of cluster-surface impacts for metallic phases: soft landing, droplet spreading and implantation. Computer Physics Communications, 2001, vol. 141, iss. 1, pp. 1–16. doi: 10.1016/S0010-4655(01)00292-2
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