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Journal Science Intensive Technologies №1 for 2015 г.
Article in number:
Technological and economic techniques to improve production efficiency and quality assurance of electronic components
Authors:
A.P. Korgavyi - Dr. Sc. (Eng.), Professor, Kaluga branch of the Bauman MSTU. E-mail: fn2kf@list.ru V.P. Marin - Dr. Sc. (Eng.), Professor, MIREA (Moscow) V.P. Savchenko - Dr. Sc. (Eng.), Professor, General Director, JSC «A.L. Mints Radiotechnical Institute» (Moscow). E-mail: asavchenko@rti-mints.ru A.V. Chelenko - Post-graduate Student, Kaluga branch of the Bauman MSTU. E-mail: fn2kf@list.ru
Abstract:
Great demands are always made of quality of electronic components based. It belongs and to composite powder and multilayered multicomponent sources of electronic emission for vacuum and gas-discharge devices with which modern radar, navigation and lighting complexes are completed. Sources of electrons of composite type are operated in various range of temperatures and between their components, for example, in RO-Me system (oxides of the type Y2O3, BeO, CaO, etc. - solid-phase interaction which leads to violation of the set structure and, eventually, to change of issue parameters and drop of durability happens W, Pt, Pd, etc.). In work physics and technology ways of ensuring quality and reliability of thermionic, secondary and electronic and cold sources of electrons of composite type in the course of their development and a mass production by stage-by-stage preliminary treatment and rational use of solid-phase interaction both in the conditions of high temperatures are described, and at operation at powerful return electronic bombing and influence of the abnormal smoldering category. Concrete technical and processing methods for various powder and multicomponent sources of electrons, necessary for providing their quality are recommended. Also the economic aspects sufficient for ensuring quality and reliability of products of radio electronics are given. They, unlike the ne-cessary, provided physicotechnological modes connected with special construction, steering and functioning of the enterprise developer and the manufacturer of products of radio electronics (material assets) provide quality of products with involvement of intangible assets of the enterprise of new type (unique technologies, patents, know-how created by the personnel of the enterprise, etc.) enough. In such complex physics and technology and economic aspects guarantee necessary and sufficient conditions for quality providing and reliability of products of radio electronics. As the arbitrator between the producer and the consumer of products the expert Center of collective use of unique preliminary treatment with independent conditions of its functioning serves.
Pages: 40-46
References

 

  1. Savchenko V.P., Kuznecov V.I.Ocenka dlitelnosti bezopasnogo prodlenija sroka ehkspluatacii starejushhego obekta // Nadezhnost i kachestvo: Sb. dokl. mezhdunar. simpoziuma. Penza: Izd-vo PGU. 2005. S. 36.
  2. Boev S.F., Savchenko V.P., Sadykhov G.S.Teoreticheskie i metodologicheskie osnovy ocenok ostatochnogo resursa izdelijj // Naukoemkie tekhnologii. 2013. T. 14. № 9. S. 21−31.
  3. Sadykhov G.S.Raschet i ocenka vremeni vosstanovlenija remontiruemykh obektov // RMV. Remont. Vosstanovlenie. Modernizacija. 2006. № 11. S. 3−10.
  4. Prolejjko V.M. Vvedenie v ehlektroniku. V kn.: Bazovye lekcii po ehlektronike. T. 1. EHlektrovakuumnaja, plazmennaja i kvantovaja ehlektronika / Pod red. Prolejjko V.M. M.: Tekhnosfera. 2009. S. 15−45.
  5. 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.
  6. 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.
  7. Prasickijj V.V. Nauchno-tekhnologicheskie aspekty proizvodstva kompozicionnykh materialov dlja teplootvodjashhikh i konstrukcionnykh ehlementov poluprovodnikovojj i vakuumnojj tekhniki // Naukoemkie tekhnologii. 2014. T. 15. № 10. S. 16−20.
  8. KHvorostov V.I., Korzhavyjj A.P., Prolejjko EH.P.Vzaimozavisimosti osnovnykh parametrov kholodnykh katodov i tekhnologicheskikh rezhimov obrabotki v monoblochnykh gelijj-neonovykh lazerakh // Naukoemkie tekhnologii. 2012. T. 13. № 10. S. 46−52.
  9. Belova I.K., ZHdanov S.M., Tomilin N.A.Fiziko-tekhnologicheskie osnovy dolgovremennogo obespechenija stabilnosti ehmissionnykh svojjstv kompozicionnykh katodov // Naukoemkie tekhnologii. 2014. T. 15. № 10. S. 21−25.
  10. JArancev N.V. Nauchno-tekhnicheskie osnovy modernizacii organizacionnojj struktury i tekhnologicheskikh processov dlja innovacionnogo razvitija predprijatija po proizvodstvu ehlektronnykh komponentov. Avtoref. diss. ? kand. tekhn. nauk. M. 2011. 20 s.
  11. JArancev N.V. Sotovaja struktura postroenija ehkologicheski bezopasnogo proizvodstva v radioehlektronike // Naukoemkie tekhnologii v priboro- i mashinostroenii i razvitie innovacionnojj dejatelnosti v VUZe: Materialy Vseros. nauchno-tekhnich. konf. M. 2009. T. 1. S. 258−259.
  12. Korzhavyjj A.P., Kapustin V.I., Kozmin G.V.Metody ehksperimentalnojj fiziki v izbrannykh tekhnologijakh zashhity prirody i cheloveka. M.: Izd-vo MGTU im. N.EH. Baumana. 2012. 352 s.
  13. Ponomarev V.A., JArancev N.V. Poroshkovye kompozicionnye materialy dlja izdelijj ehlektronnojj tekhniki: Nauchnoe izdanie. M.: Izd-vo MGTU im. N.EH. Baumana. 2014. 304 s.