Influence of Cutting Dynamic on the Selection of the Technological Regimes to Ensure Minimal Wear of Cutting Tools

OBRABOTKAMETALLOV Vol. 22 No. 4 2020 68 EQUIPMENT. INSTRUMENTS 3. Loladze T.N. Prochnost’ i iznosostoikost’ rezhushchego instrumenta [Strength and wear resistance of the cutting tool]. Moscow, Mashinostroenie Publ., 1982. 320 p. 4. MakarovA.D. Optimizatsiya protsessov rezaniya [Optimization of cutting processes].Moscow,Mashinostroenie Publ., 1976. 278 p. 5. Vasin S.A., Vereshchaka A.S., Kushner V.S. Rezanie metallov: termomekhanicheskii podkhod k sisteme vzaimosvyazei pri rezanii [Metal cutting: a thermomechanical approach to the system of interconnections during cutting]. Moscow, Bauman MSTU Publ., 2001. 447 p. ISBN 5-7038-1823-0. 6. Bershadskii L.I. Samoorganizatsiya tribosistem i kontseptsiya iznosostoikosti [Self-organization of tribosystems and the concept of wear resistance]. Trenie i iznos = Journal of Friction and Wear , 1992, vol. 13, no. 6, pp. 1077– 1094. (In Russian). 7. Kostetskii B.I. Strukturno-energeticheskaya prisposablivaemost’ materialov pri trenii [Structural and energy adaptability of materials under friction]. Problemy treniya i iznashivaniya = Friction and Wear Problems , 1986, no. 6, pp. 287–295. 8. Migranov M.Sh. Issledovaniya iznashivaniya instrumental’nykh materialov i pokrytii s pozitsii termodinamiki i samoorganizatsii [Research of wear of tool materials and coatings from the positions of thermodynamics and self-organization]. Izvestiya vysshikh uchebnykh zavedenii. Mashinostroenie = Proceedings of Higher Educational Institutions. Ма chine Building , 2006, no. 11, pp. 65–71. 9. Kim V.A., Yakubov Ch.F. Dissipativnaya struktura kontaktno-frikcionnogo vzaimodejstviya [Dissipative structure of contact-friction interaction at metal cutting]. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta = Bulletin of Irkutsk State Technical University , 2018, no. 12, pp. 35–45. DOI: 10.21285/1814-3520- 2018-12-35-45. 10. Karimov I.G. Vliyanie temperatury rezaniya na energeticheskie parametry kontakta instrumenta s detal’yu [In fl uence of the cutting temperature on the energy parameters of the tool contact with the part]. Vestnik U fi mskogo gosudarstvennogo aviatsionnogo tekhnicheskogo universiteta = Vestnik USATU , 2012, vol. 16, no. 44 (49), pp. 85–89. 11. Gomez-Solano J.R., July C., Mehl J., Bechinger C. Non-equilibriumwork distribution for interacting colloidal particles under friction. New Journal of Physics , 2015, vol. 17, p. 045026. DOI: 10.1088/1367-2630/17/4/045026. 12. Banjac M. Friction and wear processes-thermodynamic approach. Tribology in Industry , 2014, vol. 36, no. 4, pp. 341–347. 13. Bryant M.D. Entropy and dissipative processes of friction and wear. FME Transactions , 2009, vol. 37, no. 2, pp. 55–60. DOI: 10.3390/e12061345. 14. Abdel-Aal H.A. Thermodynamic modeling of wear. Encyclopedia of Tribology . Boston, MA, Springer, 2013, pp. 3622–3636. DOI: 10.1007/978-0-387-92897-5_1313. 15. Duyun T.A., Grinek A.V., Rybak L.A. Methodology of manufacturing process design, providing quality parameters and minimal costs. World Applied Sciences Journal , 2014, no. 30 (8), pp. 958–963. DOI: 10.5829/idosi. wasj.2014.30.08.14120. 16. Mukherjee I., Ray P.K. A review of optimization techniques in metal cutting processes. Computers and Industrial Engineering , 2006, vol. 50, no. 12, pp. 15–34. DOI: /10.1016/j.cie.2005.10.001. 17. Psakhie S.G., Zolnikov K.P., Kryzhevich D.S., Korchuganov A.V Key role of excess atomic volume in structural rearrangements at the front of moving partial dislocations in copper nanocrystals. Scienti fi c Reports , 2019, vol. 9, p. 3867. DOI: 10.1038/s41598-019-40409-9. 18. Bicanic N. Discrete element methods. Encyclopedia of Computational Mechanics . 2nd ed. John Wiley & Sons, 2017, pp. 1–38. DOI: 10.1002/0470091355.ecm006. 19. Zakovorotnyi V.L., Flek M.B. Dinamika protsessa rezaniya: sinergeticheskii podkhod [Dynamics of the cutting process]. Rostov-on-Don, Terra Publ., 2006. 880 p. 20. Zakovorotnyi V.L., ShapovalovV.V. Dinamika transportnykh tribosistem [Dynamics of transport tribosystem]. Sborka v mashinostroenii, priborostroenii = Assembly in Machine-Building, Instrument-Making , 2005, no. 12, pp. 19–24. 21. Postnov V.V., Sha fi kov A.A. Razrabotka evolyutsionnoi modeli iznashivaniya rezhushchego instrumenta dlya upravleniya protsessom obrabotki [Development of an evolutionary model of cutting tool wear to control the processing process]. Vestnik U fi mskogo gosudarstvennogo aviatsionnogo tekhnicheskogo universiteta = Vestnik USATU , 2012, vol. 11, no. 2 (29), pp. 139–146. 22. Kozochkin M.P., Fedorov S.V., Tereshin M.V. Sposob opredeleniya optimal’noi skorosti rezaniya v protsesse metalloobrabotki [Method for determining the optimal cutting speed in the process of Metalworking]. Patent RF, no. 2538750, 2015.

RkJQdWJsaXNoZXIy MTk0ODM1