OBRABOTKAMETALLOV Vol. 26 No. 3 2024 21 TECHNOLOGY 3. Osipov K.N. K voprosu otsenki kachestva sborki rez’bovykh soedinenii v avtomatizirovannom proizvodstve [To the question of assessing the quality of assembly of threaded connections in automated production Avtomatizatsiya i izmereniya v mashino-priborostroenii, 2018, no. 1 (1), pp. 23–29. (In Russian). 4. Lipka V.M., Rapatskii Yu.L. Otsenka vliyaniya parametrov rez’bovykh krepezhnykh izdelii na kachestvo sborki silovykh agregatov avtomobilei [Assessment of the infl uence of parameters of threaded fasteners on the quality of assembly of automobile power units]. Vestnik SevNTU [Bulletin of SevNTU]. Sevastopol, 2010, vol. 107, pp. 121–127. 5. GOST ISO 898-1–2014. Mekhanicheskie svoistva krepezhnykh izdelii iz uglerodistykh i legirovannykh stalei. Ch. 1. Bolty, vinty i shpil’ki ustanovlennykh klassov prochnosti s krupnym i melkim shagom rez’by [State Standard ISO 898-1–2014. Mechanical properties of fasteners made of carbon steel and alloy steel. Pt. 1. Bolts, screws and studs of specifi ed property classes with coarse and fi ne pitch thread]. Moscow, Standartinform Publ., 2015. 59 p. 6. Birger I.A., Iosilevich G.B. Rez’bovye i fl antsevye soedineniya [Threaded and fl anged connections]. Moscow, Mashinostroenie Publ., 1990. 368 p. ISBN: 5-217-00834-2. 7. Pavlenko V.A [Study on the causes of the weakening and destruction of the bolted connections of the casing of the reducer traction motor of electric locomotive]. Elektroprivod na transporte i v promyshlennosti [Electric drive in transport and industry]. Proceedings of the All-Russian Scientifi c and Practical Conference. Khabarovsk, 2018, pp. 64–69. (In Russian). 8. Chang H.-L., Chen C.-M., Lee C.-Y., Huang Z.-X. Study on the fastening property of precision locknut under simulated dynamic impact loading with consideration of interference factors. Journal of Mechanics, 2024, vol. 40, pp. 19–30. DOI: 10.1093/jom/ufae001. 9. Kováčiková P., DubecA., Koštialiková D. The threaded part wear of the tensioner with lock nut. IOPConference Series: Materials Science and Engineering. IOP Publishing. 2020, vol. 776 (1), p. 012094. DOI: 10.1088/1757899X/776/1/012094. 10. Zhukovskii N.E. Raspredelenie davlenii na narezkakh vinta i gaiki [Pressure distribution on screw and nut threads]. Zhukovskii N.E. Polnoe sobranie sochinenii. T. 8 [Complete works. Vol. 8]. Moscow, 1937, pp. 48–54. ISBN 978-5-458-58194-3. 11. Coria I., Abasolo M., Gutiérrez A., Aguirrebeitia J. Achieving uniform thread load distribution in bolted joints using diff erent pitch values. Mechanics & Industry, 2020, vol. 21 (6), p. 616. DOI: 10.1051/meca/2020090. 12. Malygin V.I., Kremleva L.V., Lobanov N.V. Vysokonagruzhennoe rez’bovoe soedinenie sudovogo mashinostroeniya [Highly loaded threaded connection for marine engineering]. Patent RF, no. 172373 U1, 2017. 13. Tskhai E.B., Stolberov L.E., Klopotov A.A. Sposob izgotovleniya rez’bovogo soedineniya i snizheniya nagruzki na ego vitki u opornogo tortsa gaiki [Method of manufacturing threaded connection and loading the load on its loops in the face end support nut]. Patent RF, no. 2618644 C, 2017. 14. Zemlyakov N.V. Sposob N.V. Zemlyakova stoporeniya kontrgaiki otnositel’no krepezhnoi gaiki [Method of locking locknut relative to fastening nut]. Patent RF, no. 2303717 C1, 2007. 15. Noda N.-A., Xiao Y., Kuhara M., Saito K., Nagawa M., Yumoto A., Ogasawara A. Optimum design of thin walled tube on the mechanical performance of super lock nut. Journal of Solid Mechanics and Materials Engineering, 2008, vol. 2 (6), pp. 780–791. DOI: 10.1299/jmmp.2.780. 16. Song H.-S., Chung W.-S., Jung D.-H., Seo Y.-K. Optimum shape design of the spring to improve the looseproof performance of the lock nut. Transactions of the Korean Society of Automotive Engineers, 2010, vol. 18 (2), pp. 91–96. 17. Blekhman I.I., Molyasyan S.A. Ob eff ektivnykh koeffi tsientakh treniya pri vzaimodeistvii uprugogo tela s vibriruyushchei ploskost’yu [About eff ective friction coeffi cients during the interaction of an elastic body with a vibrating plane]. Izvestiya Akademii nauk SSSR. Mekhanika tverdogo tela = Mechanics of Solids, 1970, no. 4, pp. 4–10. (In Russian). 18. Kazantsev V.F., Nigmetzyanov R.I., Sundukov S.K., Fatyukhin D.S. Primenenie ul’trazvukovykh kolebanii razlichnoi polyarizatsii pri provedenii razborochnykh operatsii [The application of ultrasonic vibrations with diff erent polarizations in the implementation of deconstruction operations]. Sborka v mashinostroenii, priborostroenii = Assembling in Mechanical Engineering, Instrument-Making, 2016, no. 12, pp. 25–28. 19. Blekhman I.I. Chto mozhet vibratsiya? O «vibratsionnoi mekhanike» i vibratsionnoi tekhnike [What can vibration do? About vibration mechanics and vibration technology]. Moscow, Nauka Publ., 1988. 207 p. ISBN 5-02013808-8. 20. Nigmetzyanov R.I., Sundukov S.K., Sukhov A.V., Fatyukhin D.S., Simonov D.S. Improvement of threadedjoint assembly using ultrasound. Russian Engineering Research, 2021, vol. 41 (6), pp. 567–569. DOI: 10.3103/ S1068798X21060150.
RkJQdWJsaXNoZXIy MTk0ODM1