Підвищення ефективності обробки внутрішніх канавок ультразвуковим різанням

Martynenko, O.D., & Lysenko, S.V. (2022). Pidvyschennia iakosti obrobky detalej avtomobiliv za rakhunok vykorystannia nyz'kochastotnykh vibratsij [Improving the quality of processing car parts due to the use of low-frequency vibrations]. Materialy Mizhnarodnoi naukovo-praktychnoi konferentsii “Avtomobil'nyj transport v ahrarnomu sektori: proektuvannia, dyzajn ta tekhnolohichna ekspluatatsiia” – Road transport in the agricultural sector: planning, design and technological operation (pp. 117-118). DBTU.

Shevchenko, O.V., & Manziuk, S.A. (2018). Efektyvnist' ul'trazvukovoi tokarnoi obrobky [Effectiveness of ultrasonic turning processing]. Tezy dopovidei XVII Mizhnarodnoi naukovo-tekhnichnoi konferentsii “Vibratsii v tekhnitsi ta tekhnolohiiakh” – Abstracts of reports of the XVII International Scientific

and Technical Conference “Vibrations in Engineering and Technologies” (pp. 111-112). Posvit.

Solodovnyk, Ye.V., Lysenko, S.V., & Martynenko, O.D. (2023). Tekhnolohichni osoblyvosti zastosuvannia vibratsij pry mekhanichnij obrobtsi [Technological features of the use of vibrations during mechanical processing]. Materialy Mizhnarodnoi naukovo-praktychnoi konferentsii “Molod' i tekhnichnyj prohres v APV” – Materials of the International scientific and practical conference “Youth and technical progress in the APV” (pp. 485-488). DBTU.

Shevchenko, O.V., & Beliaieva, A.Yu. (2018). Beliaieva Spetsial'ne instrumental'ne osnaschennia dlia rozshyrennia tekhnolohichnykh mozhlyvostej tokarnykh verstativ [Special tool equipment for expanding the technological capabilities of lathes]. Tezy dopovidei VIII Mizhnarodnoi naukovo- praktychnoi konferentsii “Kompleksne zabezpechennia yakosti tekhnolohichnykh protsesiv ta system – 2018” – Abstracts of reports of the 8th International scientific and practical conference “Complex quality assurance of technological processes and systems” (pp. 57-59). ChNTU.

Mazur, M.P., Vnukov, Yu.M., Hrabchenko, A.I., Dobroskok, V.L., Zaloha, V.O., Novosolov, Yu.K., & Yakubov F.Ya. (2020). Osnovy teorii rizannia materialiv [Fundamentals of material cutting theory]. Novyі Svit-2000.

Hloba, O.V., Vovk, V.V., Krasnovyd, D.A., & Solodkyj, V.I. (2022). Teoriia rizannia [Cutting theory]. KPI im. Ihoria Sikors'koho. https://km.kpi.ua>nauka>monograiyi-pidruchnyky.

Veselovska, N.R., Iskovych-Lototskyі, R.D., & Kovalova, I.M. (2018). Teoriia rizannia ta instrument [Theory of cutting and tools]. Vinnytskyi natsionalnyi tekhnichnyi universytet.

Omel'ianov, O.M., Polievoda, Yu.A., Zamriі, M.A. (2021). Perspektyvy zastosuvannia vibratsii pry rizanni materialiv [Prospects for using vibration when cutting materials]. Vibratsii v tekhnitsi ta tekhnolohiiakh – Vibrations in engineering and technology, (1(100)), 104-114.

Paladiіchuk, Yu.B. (2022). Typy i konstruktsii vibrozbudzhuvachiv suchasnoho mashynobuduvannia [Types and designs of vibration exciters of modern mechanical engineering]. Vibratsii v tekhnitsi ta tekhnolohiiakh – Vibrations in engineering and technology, (4(107)), 26-35.

Klimenko, S.A., Kolomiets, V.V., Hejfec, M.L., Pilipenko, A.M., Melniіchuk, Ju.A., & Burykin, V.V. (2011). Obrabotka rezaniem detalej s pokrytijami [Cutting of coated parts]. ISM im. V.N. Bakulia NAN Ukrainy.