NANOCRYSTALLINE MECHNICALLY ALLOWED MODIFIING LIGATURES FOR PRODUCTION OF CHROMIUM BRONZE

Theoretically justified and experimentally confirmed the high efficiency of the technology, based on the reactive mechanical alloying to produce nanocrystalline modifying modifiers and ligatures. Application designed mechanically alloyed modifying ligatures allows to simplify and make cheaper manufacturing process and ensures the formation of dispersion strengthened heat-resistant material with a sub -,/ microcrystalline structure type basis, which results in a significant improvement of the complex of physical and mechanical properties and performance properties of chromium bronze. 

1. Krushenko G. G., Yamskikh I. S., Bonchenkov A. S. Povyshenie kachestva chugunnykh otlivok s pomoshch’yu nanoporoshkov [Improving the quality of cast-iron foundries using nanopowders]. Metallurgiya machinostroeniya = Metallurgy Engineering, 2002, no. 2, pp. 20–21.

2. Cherepanov A. N., Poluboyarov V. A., Kalinina A. P. Primenenie ul’tradispersnykh poroshkov dlya uluchsheniya svoystv metallov i splavov [Application of superdispersed powder to improve the properties of metals and alloys]. Materialovedenie = Materials sciences, 2000, no. 10, pp. 45–53.

3. Tsivirko E. I., Lysenko N. A., Klachikhin V. V. Modifitsirovanie nanochastitsami Ti(CN) otlivok detaley iz splava ZhS3DK-VI s ponizhennym soderzhaniem ugleroda [Modification nanoparticles Ni (CN) alloy foundings parts ZhS3DK-VI with reduced carbon content]. Vostochno-Evropeyskiy zhurnal peredovykh technologiy = Eastern European Journal of advanced technologies, 2010, no. 3, pp. 42–44.

4. Lovshenko G. F., Komarov O. S., Urbanovich N. I. Povyshenie effektivnosti modifitsirovaniya serogo chuguna za schet vvedeniya v sostav modifikatora ugleroda [Increase of effectiveness of modifying the cast iron due to the introduction of the carbon modifier]. Lit’e i metallurgiya = Foundry production and metallurgy, 2010, no. 3, pp. 47–50.

5. Zykova A. P., Lychagin A. D., Chumaevsky A. V. Vliyanie modifitsirovaniya ul’tradispersnymi poroshkami oksidov tugoplavkikh metallov i kriolita na strukturu, mekhanicheskie svoystva i razrushenie chuguna SCh 25 [Influence of modifying ultradispersed powders of oxides of refractory metals and cryolite on the structure, mechanical properties and fracture iron MF 25]. Izv. vuzuv. Chernaya matallurgiya = Math. Universities. Ferrous metallurgy, 2014, no. 11, pp. 37–42.

6. Kalinichenko A. S., Slutsky A. G., Sheynert V. A. Perspektivy ispol’zovaniya nanorazmernykh poroshkov dlya polucheniya modifitsiruyushchikh ligatur [Prospects for the use of nanodimension powders for receiving of modifying ligatures]. Lit’e i metallurgiya = Foundry production and metallurgy, 2015, no. 1, pp. 65–73.

7. Kalinichenko A. S., Slutsky A. G., Sheynert V. A. Ispol’zovanie modifitsiruyushchey ligatury, soderzhashchey nanodispersnye poroshki aktivnykh elementov pri poluchenii vysokoprochnogo chuguna s sharovidnym grafitom [Using modifying ligatures containing nanodispersed, powders of active elements in the receiving of high-strength globular graphite]. Lit’e i metallurgiya = Foundry production and metallurgy, 2015, no. 3, pp. 101–106.

8. Komarov O. S., Volosatikov V. I., Provorova I. B. Nanorazmernye i ul’tradispersnye chastitsy v liteynykh tekhnologiyakh [Nanodimension and ultradispersed particles in the foundry technologies]. Lit’e i metallurgiya = Foundry production and metallurgy, 2014, no. 2, pp. 42–46.

9. Marukovich E. I., Stetsenko V. Yu. Modifitsirovanie splavov [Modifying alloys]. Minsk, Belarusian Navuka Publ., 2009, 217 p.

10. Gulyaev B. B., Pryahin E. N., Kolokoltsov V. M. Ierarkhiya struktur i mekhanicheskie svoystva litoy stali [The hierarchy of structures and mechanical properties of cast steel]. Liteynoe proizvodstvo = Foundry, 1986, no. 10, pp. 9–11.

11. Manakov N. A., Korzikova G. V., Stolyarov V. V. Domennaya struktura i gisterezisnye svoystva melkozernistykh splavov vysokoazotistykh redkozemel’nykh magnetikov [Domain structure and hysteresis properties of High-grained alloys of rare-earth magnets]. Fizika metallov i materialovedenie = Physics of Metals and Materials, 1992, no. 2, pp. 21–26.

12. Klopotov A. A. et al. Modifikatsiya strukturnykh sostoyaniy v usloviyakh intensivnogo vneshnego vozdeystviya v nikelide titana [Modification of structural states in the intensive external influence in the NiTi]. Izv. vuzuv. Fizika = Math. Universities. Physics, 1992, no. 12, pp. 3–7.

13. Ivanov Yu. F., Paul A. V., Koneva N. A. Elektronno-mikroskopicheskiy analiz nanokristallicheskikh materialov [Electron microscopic analysis of nanocrystalline materials]. Fizika metallov i materialovedenie = Physics of Metals and Metallography, 1991, no. 7, pp. 206–208.

14. Poroshkovaya metallurgiya. Materialy, tekhnologiya, svoystva, primenenie [Powder metallurgy. Materials, technology, properties and application]. Kiev, Navukova Dumka Publ., 1985. 624. p.

15. Liopo V. A., Struk V. A., Avdeychik S. V. Vvedenie v fiziku nanorazmernykh chastits [Leading in to the physics of nanodimension elements]. Industry Region: Problems and perspectives of innovation development. Grodno, 2008, pp. 223–272.

16. Kompozitsionnye materialy. Spravochnik. Pod red. D. M. Karpinosa [Composite materials]. A handbook. Kiev, Naukova Dumka Publ., 1985, 592 P.

17. Vityaz’ P. A., Lovshenko F. G., Lovshenko G. F. Mekhanicheski legirovannye splavy na osnove alyuminiya i medi [The mechanically alloyed aluminum-based alloys and copper]. Minsk, Belaruskaya Navuka Publ., 1998, 352 p.

18. Lovshenko G. F., Lovshenko F. G., Khina B. B. Nanostrukturnye mekhanicheski legirovannye materialy na osnove metallov [Nanostructured mechanically alloyed materials metals-based]. Mogilev, Belarus.-Ros. University Publ., 2008, 679 p.

19. Lovshenko G. F., Lovshenko F. G. Teoreticheskie i tekhnologicheskie aspekty sozdaniya nanostrukturnykh mekhanicheski legirovannykh materialov na osnove metallov [Theoretical and technological aspects of nanostructured mechanically alloyed materials metals-based]. Mogilev, Belarus.-Ros. University Publ., 2005, 276 p.

20. Lovshenko F. G., Lovshenko G. F. Nanostrukturnye mekhanicheski legirovannye materialy na osnove nikelya [Nanostructured materials are mechanically alloyed nickel-based]. Minsk, National Technical University Publ., 2012, 297 p.

21. Lovshenko F. G., Lovshenko G. F. Kompozitsionnye nanostrukturnye mekhanicheski legirovannye poroshki dlya gazotermicheskikh pokrytiy [Composite nanostructured mechanically alloyed powders for gas-thermal coverings]. Mogilev, Belarus.-Ros. University Publ., 2013, 216 p.

22. Nikolaev A. K., Novikov A. I., Rozenberg V. M. Khromovye bronzy [Chrome Bronze]. Moscow, Metallurgy Publ., 1983, 175 p.

23. Gofenshefer L. I., Chursin V. M., Ryzhov V. I. Poluchenie splava medi, soderzhashchego do 25% khroma, metodom otkrytoy induktsionnoy plavki [Receiving of copper alloy containing up to 25% chromium, the open method of induction melting]. Zvetnye metally = Nonferrous metals, 1981, no. 9, pp. 90–91.

24. Goloveshka V. F., Sergeev L. N. Vliyanie usloviy plavki na rastvorenie khroma v zhidkoy medi [Influence of smelting conditions of the dissolution of chromium in liquid copper]. Zvetnye metally = Nonferrous metals, 1972, no. 10, pp. 63–65.

25. Strel’tsov F. N., Fridlyansky P. M., Krashykh V. I. Puti snizheniya ugara tsirkoniya i stabilizatsii sostava tsirkoniysoderzhashchikh bronz pri otkrytoy plavke v kanal’nykh pechakh [Ways to reduce wastes of zirconium and zirconium-containing stabilizing composition bronze at open smelting furnaces in the channel]. Sb. trudov «Plavka i lit’e tsvetnykh metallov i splavov» = Melting and casting of non-ferrous metals and alloys, Moscow, Metallurgy Publ., 1980, no. 63, pp. 28–32.

26. Vakuumnaya plavka mednykh splavov [Vacuum melting copper alloys]. R. M. Fridlyansky [et al.]. Moskow, Tsvetmetinformatsiya Publ., 1974, 88 p.

27. Belousov N. P., Sergeev L. N., Hnyzhov B. I. Rastvorenie khroma v zhidkoy medi [Dissolution of chromium in liquid copper]. Tsvetnye metally = Nonferrous metals, 1978, no. 4, pp. 61–62.

28. Moldavskiy O. D. Vliyanie metoda vyplavki na tekhnologichnost’, fiziko-mekhanicheskie i ekspluatatsionnye svoystva mednykh splavov [The impact of the method of smelting on manufacturability, physical, mechanical and performance properties of copper alloys]. Tsvetnye metally = Nonferrous metals, 1981, no. 11, pp. 33–35.

29. Moldavskiy O. D. Elektroshlakovyy pereplav tyazhelykh tsvetnykh metallov [Electroslag remelting of heavy non-ferrous metals]. Mosсow, Metallurgiya Publ., 1980, 200 p.

30. Strel’tsov F. N., Klevtsov A. A. Perspektivy primeneniya plazmennykh pechey dlya vyplavki mednykh splavov [Prospects for the use of plasma furnaces for melting copper alloys]. Tsvetnye metally = Nonferrous metals, 1980, no. 7, pp. 101–104.

31. Lovshenko F. G. et al. Termodinamicheskoe modelirovanie geterogennogo vzaimodeystviya pri mekhanicheskom legirovanii v sistemakh na osnove medi [Thermodynamic modeling of heterogeneous interaction during mechanical at mechanical alloyage in the copper-based systems]. Vestnik Bel.-Ros. Universiteta = Bulletin of the Belarusian-Russian University, 2012, no. 1, pp. 23–34.

32. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Zakonomernosti formirovaniya mekhanicheski legirovannykh granulirovannykh ligatur sistemy «med’–khrom» [Regularities of formation of mechanically alloyed granular ligatures system «copper–chrome»]. Vestnik Bel.-Ros. Universiteta = Bulletin of the Belarusian-Russian University, 2014, no. 2, pp. 49–59.

33. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Poluchenie mekhanicheski legirovannykh nanostrukturnykh modifitsiruyushchikh ligatur dlya proizvodstva vysokoprochnykh submikrokristallicheskikh bronz elektrotekhnicheskogo naznacheniya [Getting mechanically alloyed nanostructure modifying alloys for the production of high-strength bronzes submicrocrystalline electrotechnical designation]. Lit’e i metallurgiya = Foundry production and metallurgy, 2013, no. 2, pp. 115–126.

34. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Nauchnye printsipy sozdaniya vysokostoykikh khromovykh bronz elektrotekhnicheskogo naznacheniya s primeneniem tekhnologii, sochetayushchey reaktsionnoe mekhanicheskoe legirovanie i lit’ye [Scientific principles of creating highly resistant chrome bronze for electrical purposes with the use of technology, combining reactionary mechanical alloying and casting]. Perspektivnye technologii = Advanced technologies, Vitebsk, 2011, pp. 214–233.

35. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Optimizatsiya usloviy ekstruzii mekhanicheski legirovannykh kompozitsiy «med’-khrom» i zakonomernosti formirovaniya struktury, fazovogo sostava i svoystv materialov iz nikh [Optimization of conditions for the extrusion of mechanically alloyed compositions «copper-chrome» and the laws of formation of the structure, phase composition and properties of these materials]. Vestnik Bel.-Ros. Universiteta = Bulletin of the Belarusian-Russian University, 2014, no. 2, pp. 49–59.

36. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Bronzy elektrotekhnicheskogo naznacheniya i osobennosti ikh proizvodstva [Bronzes of electrical devices and the characteristics of their production]. Vestnik Bel.-Ros. Universiteta = Bulletin of the Belarusian-Russian University, 2012, no. 3, pp. 36–52.

37. Lovshenko F. G., Lovshenko G. F., Lozikov I. A. Litye khromsoderzhashchie bronzy, poluchaemye s primeneniem mekhanicheski legirovannykh ligatur [Chromium alloy of bronze, obtained through the use of mechanically alloyed ligatures]. Lit’e i metallurgiya = Foundry production and metallurgy, 2012, no. 3, pp. 131–135.