Obrabotka Metallov 2025 Vol. 27 No. 1

OBRABOTKAMETALLOV Vol. 27 No. 1 2025 91 TECHNOLOGY 3. Abramov O.V., Prikhod’ko V.M., ed. Moshchnyi ul’trazvuk v metallurgii i mashinostroenii [Powerful ultrasound in metallurgy and mechanical engineering], Moscow, Yanus-K Publ., 2006. 687 p. ISBN 5-8037-0314-1. 4. Bai F., Saalbach K.-A., Wang L., Wang X., Twiefel J. Impact of time on ultrasonic cavitation peening via detection of surface plastic deformation, Ultrasonics, 2018, vol. 84, pp. 350–355. DOI: 10.1016/j.ultras.2017.12.001. 5. Zhang Y., Huang L., Lu F., Qu S., Ji V., Hu X., Liu H. Eff ects of ultrasonic surface rolling on fretting wear behaviors of a novel 25CrNi2MoV steel. Materials Letters, 2021, vol. 284 (2), p. 128955. DOI: 10.1016/j. matlet.2020.128955. 6. Cui Z., Mi Y., Qiu D., Dong P., Qin Z., Gong D., Li W. Microstructure and mechanical properties of additively manufactured CrMnFeCoNi high-entropy alloys after ultrasonic surface rolling process. Journal of Alloys and Compounds, 2021, vol. 887, pp. 161393. DOI: 10.1016/j.jallcom.2021.161393. 7. Lai F., Qu S., Lewis R., Slatter T., Fu W., Li X. The infl uence of ultrasonic surface rolling on the fatigue and wear properties of 23-8N engine valve steel. International Journal of Fatigue, 2019, vol. 125, pp. 299–313. DOI: 10.1016/j.ijfatigue.2019.04.010. 8. Rosenberg L.D., ed. Fizika i tekhnika moshchnogo ul’trazvuka. Kn. 3 [Physics and technology of powerful ultrasound. Vol. 3]. Moscow, Nauka Publ., 1970. 689 p. 9. Manokhin A.I., ed. Vozdeistvie moshchnogo ul’trazvuka na mezhfaznuyu poverkhnost’ metallov [The eff ect of powerful ultrasound on the interphase surface of metals]. Moscow, Nauka Publ., 1986. 277 p. 10. Suslov A.G., ed. Spravochnik tekhnologa [Technologist’s handbook]. Moscow, Innovatsionnoe mashinostroenie Publ., 2019. 800 p. ISBN 978-5-907104-23-5. 11. Li G., Qu S.G., Pan Y.X., Li X.Q. Eff ects of the diff erent frequencies and loads of ultrasonic surface rolling on surface mechanical properties and fretting wear resistance of HIP Ti–6Al–4V alloy. Applied Surface Science, 2016, vol. 389, pp. 324–334. DOI: 10.1016/j.apsusc.2016.07.120. 12. Li G., Qu S., Xie M.M., Li X. Eff ect of ultrasonic surface rolling at low temperatures on surface layer microstructure and properties of HIP Ti-6Al-4V alloy. Surface and Coatings Technology, 2017, vol. 316, pp. 75–84. DOI: 10.1016/j.surfcoat.2017.01.099. 13. Li G., Qu S., Xie M., Ren Z., Li X. Eff ect of multi-pass ultrasonic surface rolling on the mechanical and fatigue properties of HIP Ti-6Al-4V alloy. Materials, 2017, vol. 10, p. 133. DOI: 10.3390/ma10020133. 14. Luan X., Zhao W., Liang Z., Xiao S., Liang G., Chen Y., Zou S., Wang X. Experimental study on surface integrity of ultra-high-strength steel by ultrasonic hot rolling surface strengthening. Surface and Coatings Technology, 2020, vol. 392, p. 125745. DOI: 10.1016/j.surfcoat.2020.125745. 15. Zhao W., Liu D., Qin H., Zhang X., Zhang H., Zhang R., Ren Z., Ma C., Amanov A., Pyun Y.-S., Doll G.L., Dong Y., Ye C. The eff ect of ultrasonic nanocrystal surface modifi cation on low temperature nitriding of ultra-high strength steel. Surface and Coatings Technology, 2019, vol. 375, pp. 205–214. DOI: 10.1016/j. surfcoat.2019.07.006. 16. TingW., DongpoW., Gang L., Baoming G., Ningxia S. Investigations on the nanocrystallization of 40Cr using ultrasonic surface rolling processing. Applied Surface Science, 2008, vol. 255 (5), pp. 1824–1829. DOI: 10.1016/j. apsusc.2008.06.034. 17. JohnM., RallsA.M., Dooley S.C., ThazhathidathilA.K.V., PerkaA.K., Kuruveri U.B., Menezes P.L. Ultrasonic surface rolling process: properties, characterization, and applications. Applied Sciences, 2021, vol. 11 (22), p. 10986. DOI: 10.3390/app112210986. 18. Kazantsev V.F., Kudryashov B.A., Neverov A.N., Nigmetzyanov R.I., Prikhod’ko V.M. Primenenie ul’trazvuka pri sborochno-razborochnykh operatsiyakh [The use of ultrasound in assembly and disassembly operations]. Moscow, Tekhpoligraftsentr Publ., 2008. 145 p. ISBN 978-5-94385-040-0. 19. Prikhod’ko V.M. Ul’trazvukovye tekhnologii pri proizvodstve i remonte avtotraktornoi tekhniki [Ultrasonic technologies in the production and repair of automotive equipment]. Moscow, Tekhpoligraftsentr Publ., 2000. 252 p. ISBN 5-900095-16-9. 20. Cao X.J., Pyoun Y.S., Murakami R. Fatigue properties of a S45C steel subjected to ultrasonic nanocrystal surface modifi cation. Applied Surface Science, 2010, vol. 256 (21), pp. 6297–6303. DOI: 10.1016/j.apsusc. 2010.04.007. 21. Mukhanov I.I., Golubev Yu.M. Uprochnenie stal’nykh detalei sharikom, vibriruyushchim s ul’trazvukovoi chastotoi [Hardening of steel parts with a ball vibrating at ultrasonic frequency]. Vestnik mashinostroeniya = Russian Engineering Research, 1966, vol. 11, pp. 52–53. (In Russian). 22. Stebel’kov I.A. Sposob poverkhnostnogo uprochneniya [Surface hardening method]. Inventor’s Certifi cate USSR, no. 456704, 1975. 23. Nigmetzyanov R.I., Prikhodko V.M., Sundukov S.K., Sukhov A.V., Fatyukhin D.S. Sposoby ul’trazvukovogo poverkhnostnogo plasticheskogo deformirovaniya [Methods of ultrasonic surface plastic deformation]. Naukoemkie

RkJQdWJsaXNoZXIy MTk0ODM1