Investigation of the carbide-tipped tool wear hardened by method of aerodynamic impact

dc.citation.epage23
dc.citation.issue2
dc.citation.journalTitleUkrainian Journal of Mechanical Engineering and Materials Science
dc.citation.spage11
dc.citation.volume3
dc.contributor.affiliation“Promlizing Corporation”, Belarus
dc.contributor.affiliationLviv Polytechnic National University
dc.contributor.authorZhygalov, Anatoly
dc.contributor.authorStupnytskyy, Vadym
dc.coverage.placenameLviv
dc.date.accessioned2018-10-01T07:54:33Z
dc.date.available2018-10-01T07:54:33Z
dc.date.created2017-10-19
dc.date.issued2017-10-19
dc.description.abstractTheoretical calculations and experimental studies of the influence of wear on the cutting process and the precision parameters of machining by hard alloys during milling are described in the article. The method of aerodynamic hardening is designed to increase the durability of tools, which are heterogeneous compositions of tungsten carbides, titanium and tantalum with cobalt ligature operating under severe process conditions with varying impact loads. The effect of hardening by the ADH method is achieved due to the influence of sound waves on the structure of hard alloys. The results of imitation studies of the wear process in the DEFORM system are described.
dc.format.extent11-23
dc.format.pages13
dc.identifier.citationZhygalov A. Investigation of the carbide-tipped tool wear hardened by method of aerodynamic impact / Anatoly Zhygalov, Vadym Stupnytskyy // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 3. — No 2. — P. 11–23.
dc.identifier.citationenZhygalov A. Investigation of the carbide-tipped tool wear hardened by method of aerodynamic impact / Anatoly Zhygalov, Vadym Stupnytskyy // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 3. — No 2. — P. 11–23.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/42876
dc.language.isoen
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofUkrainian Journal of Mechanical Engineering and Materials Science, 2 (3), 2017
dc.relation.references[1] G. I. Granovskij and V. G. Granovskij, Rezanie metallov [Metals Cutting]. Moscow, Russia: Vysshaja shkola Publ., 1985. (In Russian).
dc.relation.references[2] Vadym Stupnytskyy and Andrij Kuk, "Determination of deformation component roughness parameters using the methods of rheological simulation modeling of the cutting process", Austrian Journal of Technical and Natural Sciences, no. 3, section 4, pp. 33–37, 2014.
dc.relation.references[3] V. Stupnytskyy, "Issledovanie adiabaticheskogo sdviga struzhki pri mehanicheskoj obrabotke titanovyh i nikelevyh splavov na osnove analiza rezul'tatov imitacionnogo reologicheskogo modelirovanija v sisteme DEFORM" [“Study of adiabatic chip shift during machining of titanium and nickel alloys on the basis of analysis of the results of imitative rheological modeling in the DEFORM system”], Nauchnyj (proizvodstvenno-prakticheskij) zhurnal “Vesnik Grodzenskaga Dzjarzhawnaga Wniversitjeta Imja Janki Kupaly”, no. 3 (158), issue 6, pp. 76–86, 2013. (In Russian).
dc.relation.references[4] G. S. Zheleznov, "Ocenka sil, dejstvujushhih na faske iznosa instrumenta po zadnej poverhnosti" [“Evaluation of forces acting on the tool wear face on the back surface”], Stanki i instrument [Machines and tools], no. 6, pp. 1–3, 2003. (In Russian).
dc.relation.references[5] Vadym Stupnytskyy, “Investigation of the influence of machining factors on the workpiece deformation mode in the chip-forming zone by the finite element method”, Ukrainian Journal of Mechanical Engineering and Materials Science, vol. 2, no. 2, pp. 61–70, 2016.
dc.relation.references[6] V. L. Strel'cov, “Issledovanie processa kontaktirovanija zadnej poverhnosti rezhushhego instrumenta s obrabatyvaemoj poverhnost'ju” [“Investigation of the process of contacting of the back surface of the cutting tool with the surface being machined”], Vestnik mashinostroenija [Bulletin of Mechanical Engineering], no. 10, pp. 38–41,2001. (In Russian).
dc.relation.references[7] I. Ja. Shtaerman, Kontaktnaja zadacha teorii uprugosti [The contact problem of the theory of elasticity]. Moscow, Russia: Gosudarstvennoe izdatel'stvo Tehniko-teoreticheskoj literatury Publ., 1949. (In Russian).
dc.relation.references[8] L. A. Galii, Kontaktnye zadachi teorii uprugosti i vjazkouprugosti [Contact problems of the theory of elasticity and viscoelasticity]. Moscow, Russia: Nauka Publ., 1980. (In Russian).
dc.relation.references[9] A. N. Zhigalov, Adaptivnoe upravlenie pri sovmeshhennoj obrabotke rezaniem i PPD [Adaptive control with combined machining and PPD]. Mogilev, Belarus: MGUP Publ., 2013. (In Russian).
dc.relation.references[10] A. N. Zhigalov, G. F. Shaturov and V. M. Golovkov, “Sposob ajerodinamicheskogo uprochnenija izdelij” [“Method of aerodynamic hardening of products”], BY Patent 21049, June 30, 2017. (In Russian).
dc.relation.references[11] A. N. Zhigalov, A. R. Maslov and G. F. Shaturov, “Improved Hard Alloys for Efficient Milling”, Russian Engineering Research, vol. 35, no. 11, pp. 818–821, 2015.
dc.relation.references[12] A. R. Maslov and A. N. Zhigalov, “Povyshenie soprotivlenija iznashivaniju tverdyh splavov metodom ajerodinamicheskogo vozdejstvija” [“Increasing of wear resistance of hard alloys by the method of aerodynamic action”], Trenie i iznos [Friction and wear], vol. 35, no. 5, pp. 461–466, 2014. (In Russian).
dc.relation.references[13] P. I. Jashhericyn, E. Je. Fel'dshtejn and M. A. Kornievich, Teorija rezanija [Theory of cutting]. Minsk, Belarus: Novoe znanie Publ., 2006. (In Russian).
dc.relation.references[14] Vadym Stupnytskyy, “Computer Aided Machine-Building Technological Process Planning by the Methods of Concurrent Engineering”, Europaische Fachhochschule: Wissenschaftliche Zeitschrift, vol. 2, no. 3, section 1, pp. 50–53, 2013.
dc.relation.referencesen[1] G. I. Granovskij and V. G. Granovskij, Rezanie metallov [Metals Cutting]. Moscow, Russia: Vysshaja shkola Publ., 1985. (In Russian).
dc.relation.referencesen[2] Vadym Stupnytskyy and Andrij Kuk, "Determination of deformation component roughness parameters using the methods of rheological simulation modeling of the cutting process", Austrian Journal of Technical and Natural Sciences, no. 3, section 4, pp. 33–37, 2014.
dc.relation.referencesen[3] V. Stupnytskyy, "Issledovanie adiabaticheskogo sdviga struzhki pri mehanicheskoj obrabotke titanovyh i nikelevyh splavov na osnove analiza rezul'tatov imitacionnogo reologicheskogo modelirovanija v sisteme DEFORM" ["Study of adiabatic chip shift during machining of titanium and nickel alloys on the basis of analysis of the results of imitative rheological modeling in the DEFORM system"], Nauchnyj (proizvodstvenno-prakticheskij) zhurnal "Vesnik Grodzenskaga Dzjarzhawnaga Wniversitjeta Imja Janki Kupaly", no. 3 (158), issue 6, pp. 76–86, 2013. (In Russian).
dc.relation.referencesen[4] G. S. Zheleznov, "Ocenka sil, dejstvujushhih na faske iznosa instrumenta po zadnej poverhnosti" ["Evaluation of forces acting on the tool wear face on the back surface"], Stanki i instrument [Machines and tools], no. 6, pp. 1–3, 2003. (In Russian).
dc.relation.referencesen[5] Vadym Stupnytskyy, "Investigation of the influence of machining factors on the workpiece deformation mode in the chip-forming zone by the finite element method", Ukrainian Journal of Mechanical Engineering and Materials Science, vol. 2, no. 2, pp. 61–70, 2016.
dc.relation.referencesen[6] V. L. Strel'cov, "Issledovanie processa kontaktirovanija zadnej poverhnosti rezhushhego instrumenta s obrabatyvaemoj poverhnost'ju" ["Investigation of the process of contacting of the back surface of the cutting tool with the surface being machined"], Vestnik mashinostroenija [Bulletin of Mechanical Engineering], no. 10, pp. 38–41,2001. (In Russian).
dc.relation.referencesen[7] I. Ja. Shtaerman, Kontaktnaja zadacha teorii uprugosti [The contact problem of the theory of elasticity]. Moscow, Russia: Gosudarstvennoe izdatel'stvo Tehniko-teoreticheskoj literatury Publ., 1949. (In Russian).
dc.relation.referencesen[8] L. A. Galii, Kontaktnye zadachi teorii uprugosti i vjazkouprugosti [Contact problems of the theory of elasticity and viscoelasticity]. Moscow, Russia: Nauka Publ., 1980. (In Russian).
dc.relation.referencesen[9] A. N. Zhigalov, Adaptivnoe upravlenie pri sovmeshhennoj obrabotke rezaniem i PPD [Adaptive control with combined machining and PPD]. Mogilev, Belarus: MGUP Publ., 2013. (In Russian).
dc.relation.referencesen[10] A. N. Zhigalov, G. F. Shaturov and V. M. Golovkov, "Sposob ajerodinamicheskogo uprochnenija izdelij" ["Method of aerodynamic hardening of products"], BY Patent 21049, June 30, 2017. (In Russian).
dc.relation.referencesen[11] A. N. Zhigalov, A. R. Maslov and G. F. Shaturov, "Improved Hard Alloys for Efficient Milling", Russian Engineering Research, vol. 35, no. 11, pp. 818–821, 2015.
dc.relation.referencesen[12] A. R. Maslov and A. N. Zhigalov, "Povyshenie soprotivlenija iznashivaniju tverdyh splavov metodom ajerodinamicheskogo vozdejstvija" ["Increasing of wear resistance of hard alloys by the method of aerodynamic action"], Trenie i iznos [Friction and wear], vol. 35, no. 5, pp. 461–466, 2014. (In Russian).
dc.relation.referencesen[13] P. I. Jashhericyn, E. Je. Fel'dshtejn and M. A. Kornievich, Teorija rezanija [Theory of cutting]. Minsk, Belarus: Novoe znanie Publ., 2006. (In Russian).
dc.relation.referencesen[14] Vadym Stupnytskyy, "Computer Aided Machine-Building Technological Process Planning by the Methods of Concurrent Engineering", Europaische Fachhochschule: Wissenschaftliche Zeitschrift, vol. 2, no. 3, section 1, pp. 50–53, 2013.
dc.rights.holder© Національний університет „Львівська політехніка“, 2017
dc.rights.holder© Zhygalov A., Stupnytskyy V., 2017
dc.subjectcutting tools
dc.subjectwear
dc.subjectwear rate
dc.subjectmethod of aerodynamic hardening
dc.subjectsimulation modeling
dc.subjectstress
dc.subjectdeformation
dc.titleInvestigation of the carbide-tipped tool wear hardened by method of aerodynamic impact
dc.typeArticle

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