350 rub
Journal Science Intensive Technologies №10 for 2015 г.
Article in number:
The processes of cutting and turning in manufacture technologies for ECB devices
Authors:
A.V. Volkov - Ph.D. (Eng.), Associate Professor, Kaluga Branch of MSTU named after N.E. Bauman. E-mail: volkovkfmgtu@yandex.ru I.K. Ustinov - Ph.D. (Eng.), Head of Department, Kaluga Branch of MSTU named after N.E. Bauman. E-mail: m4kf-kafedra@rambler.ru V.V. Prasitskiy - Dr.Sc. (Eng.), Director, Ltd «Ekolyum-Voschod». E-mail: sintel40@yandex.ru S.S. Strelchenko - Dr.Sc. (Eng.), Professor, Kaluga Branch of MSTU named after N.E. Bauman. E-mail: stas40@kaluga.ru
Abstract:
At the end of the last century, a number of items of domestic electronic components, nanostructured sources of hot and cold emission from the outer and inner working surface, the composite electrodes for vacuum and discharge tubes, lamps and lasers, permanent magnets, heat sink elements and others have been developed. For their mass production, specialized equipment and production lines was designed. Since the aforementioned products usually have a complicated geometric forming, it is particularly valuable to develop the equipment for the precision machining of the working surface of the cutting and turning means. Since the specific processing of such products is required to maintain equity, magnetic or thermal properties, the specialists got an important task, even for these types of products, in relation to the existing automation equipment machining, to find the optimal scheme of cutting and turning products based on metal alloys and compositions. Analyzes of the nocel technologies of cutting and turning is made by the authors and described in the article. On the basis of the analyzed physical and chemical processes occurring during the cutting of materials, a rational scheme is proposed for machining of electronic components with precision properties.
Pages: 48-55
References

 

  1. Strelchenko S.S. Perspektivy razvitija otechestvennojj ehlektroniki // Naukoemkie tekhnologii. 2014. T. 15. № 2. S. 4-9.
  2. Bolgov I.S., Korzhavyi A.P.Promising Directions of Development of Tape Metallic Materials for Electronics // Journal of Advanced Materials. 1994. V. 1. № 4. R. 350-352.
  3. Korzhavyi A.P.Advanced Metallic Materials  for Vacuum Devices // Journal of Advanced Materials. 1994. V. 1. № 1. R. 46-53.
  4. Korzhavyjj A.P. Poroshkovaja metallurgija v materialosberegajushhikh tekhnologijakh izgotovlenija katodnykh uzlov IEHT // EHlektronnaja promyshlennost. 1986. Vyp. 3(151). S. 48-50.
  5. Korzhavyjj A.P., Lorenc G.F., SHelukhin A.S., Fajjfer S.I.Nekotorye voprosy izgotovlenija polykh tonkostennykh podlozhek // EHlektronnaja tekhnika. Ser. 6. Materialy. 1980. Vyp. 4(141). S. 12-18.
  6. Korzhavyjj A.P., Marin V.P., Sigov A.S.Osnovnye aspekty sozdanija tekhnologijj i konstrukcijj izdelijj kvantovojj ehlektroniki // Naukoemkie tekhnologii. 2002. T. 3. № 4. S. 20-31.
  7. Korzhavyjj A.P.  Materialy s vysokojj ustojjchivostju k raspyleniju na osnove legkikh metallov dlja kholodnykh istochnikov ehlektronov // Naukoemkie tekhnologii. 2001. T. 2. № 4. S. 29-32.
  8. Korzhavyjj A.P., Marin V.P., Reutov A.P. Perspektivnye napravlenija razrabotok materialov dlja vakuumnykh priborov // Naukoemkie tekhnologii. 2001. T. 2. № 4. S. 13-19.
  9. Ponomarev V.A., JArancev N.V. Poroshkovye materialy dlja izdelijj ehlektronnojj tekhniki: nauchnoe izdanie / Pod red. A.P. Korzhavogo. M.: Izd-vo MGTU im. N.EH. Baumana. 2014. 304 s.
  10. Injukhin M.V., Korzhavyjj A.P., Prasickijj G.V. Parametry i tekhnika poluchenija teplootvodjashhikh materialov dlja poluprovodnikovykh priborov // Naukoemkie tekhnologii. 2014. T. 15. № 2. S. 10-19.
  11. Bondarenko G.G., Nikiforov D.K., Korzhavyi A.P.  Modification of the emitting metal - metal oxide nanostructures ionic bombardment // Journal of Advanced Materials. 2007. V. 1. R. 224-225.
  12. A.s. № 1565285 (RF). Sposob izgotovlenija plenochnogo katoda dlja gazovogo lazera/V.N. Sukhovskijj A.P. Korzhavyjj. 1987.
  13. Patent № 2175804 (RF). Gazovyjj lazer na tlejushhem razrjade / G.M. Kalistratova, V.N. Kazakov, A.P. Korzhavyjj i dr. 2001.
  14. Kolesnikov A.G., JAkovlev R.A., Malcev A.A. Tekhnologicheskoe oborudovanie prokatnogo proizvodstva. M.: Izd-vo MGTU im. N.EH. Baumana. 2014. 158 s.
  15. JAshhericyn P.I., Feldshtejjn E.EH., Kornievich M.A. Teorija rezanija: ucheb. Izd. 2-e, ispr. i dop. Minsk: Novoe znanie. 2006. 512 s.
  16. Ermakov JU.M. Kompleksnye sposoby ehffektivnojj obrabotki rezaniem: Biblioteka tekhnologa. M: Mashinostroenie. 2005. 272 s.
  17. Grubyjj S.A. Metody optimizacii rezhimnykh parametrov lezvijjnojj obrabotki: ucheb. posobie. M: Izd-vo MGTU im. N.EH. Baumana. 2008. 96 s.
  18. Vereshhaka A.S., Kushner B.C. Rezanie materialov: ucheb. M.: Vysshaja shkola. 2009. 535 s.
  19. VolkovA.V. Gipoteza o tochnosti raschjota sily rezanija. Parametry rezanija // Izvestija TulGU. Ser. Tekhnicheskie nauki. 2014. Vyp. 5. S. 124-133.
  20. VolkovA.V. Gipoteza o tochnosti rascheta sily rezanija. Razrabotka matematicheskojj modeli // Izvestija TulGU. Ser. Tekhnicheskie nauki. 2014. Vyp. 5. S. 158-167.