Application of wear-resistant coating by electrospark alloying method using an eutectic electrode material

dc.citation.epage48
dc.citation.issue1
dc.citation.journalTitleUkrainian Journal of Mechanical Engineering and Materials Science
dc.citation.spage40
dc.citation.volume4
dc.contributor.affiliationLviv Polytechnic National University
dc.contributor.authorBilous, Oleksiy
dc.contributor.authorMahura, Bohdan
dc.coverage.placenameLviv
dc.date.accessioned2019-02-11T13:44:18Z
dc.date.available2019-02-11T13:44:18Z
dc.date.created2018-01-29
dc.date.issued2018-01-29
dc.description.abstractAnalysis of the literature database connected with the usage of an electro-spark alloying (ESA) for tool hardening has been carried out in the article. Necessity of developing a new tungstenless electrode materials with eutectic structure for improvement of an electro-spark alloying technologies has been proved. Therefore, the structure of a new eutectic Fe-Mn-C-B-Si-Cr-Li alloy system has been developed and manufacturing techniques of an alloying by a sintering method has been offered. The article presents the scientific data obtained on the modern equipment. Electronic spectroscopy – spectral analysis of an eutectic electrode alloy has been carried out by an electronic spectrometer of JAMP-10S model (JEOL). X-ray phase analysis of the alloy has been carried out on the “Dron-UM1”.
dc.format.extent40-48
dc.format.pages9
dc.identifier.citationBilous O. Application of wear-resistant coating by electrospark alloying method using an eutectic electrode material / Oleksiy Bilous, Bohdan Mahura // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2018. — Vol 4. — No 1. — P. 40–48.
dc.identifier.citationenBilous O. Application of wear-resistant coating by electrospark alloying method using an eutectic electrode material / Oleksiy Bilous, Bohdan Mahura // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2018. — Vol 4. — No 1. — P. 40–48.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/44124
dc.language.isoen
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofUkrainian Journal of Mechanical Engineering and Materials Science, 1 (4), 2018
dc.relation.references[1] A. D. Verkhoturov, et al., “Svoistva iznoso-stoikikh pokrytii iz evtekticheskikh splavov khrom – karbid” [“Properties of wear-resistant coatings from eutectic chromium-carbide alloys”], Poroshkovaia metallurgiia [Powder metallurgy], no. 3, pp. 45–50, 1984. [in Russian].
dc.relation.references[2] O. V. Bilous, et al., “Vprovadzhennia suchasnykh tekhnolohii zmitsnennia instrumentalnykh stalei dlia obrobky derevynnykh materialiv” [“Implementation of modern technologies for the strengthening of instrumental steels for the processing of wood materials”], Naukovyi visnyk NLTU Ukrainy [Scientific Bulletin of UNFU], vol. 22.6, pp. 86–90, 2012. [in Ukrainian].
dc.relation.references[3] V. M. Golubetc, and M. I. Pashechko, “Printcipy sozdaniia i osobennosti formirovaniia evtekticheskikh pokrytii iz zhidkoi fazy” [“Principles of creation and features of the formation of eutectic coatings from the liquid phase”], Fizyko-khimichna mekhanika materialiv [Physico-Chemical Mechanics of Materials], no, pp. 25–29, 1984. [in Russian].
dc.relation.references[4] V. M. Golubetc, Dolgovechnost evtekticheskikh pokrytii v korrozionnykh sredakh [Durability of eutectic coatings in corrosive environments]. Kyiv, Ukraine: Naukova Dumka Publ., 1990. [in Russian].
dc.relation.references[5] V. P. Glukhov, Boridnye pokrytiia na zheleze i stali [Boride coatings on iron and steel]. Kyiv, Ukraine: Naukova Dumka Publ., 1970. [in Russian].
dc.relation.references[6] M. I. Pashechko, V. M. Golubetc, and M. V. Chernetc, Formirovanie i friktcionnaia stoikost evtekticheskikh pokrytii [Formation and frictional resistance of eutectic coatings]. Kyiv, Ukraine: Naukova Dumka Publ., 1993. [in Russian].
dc.relation.references[7] M. I. Pashechko, and V. M. Golubetc, “Sposob polucheniia evtekticheskikh termo-diffuzionnonaplavlennykh pokrytii” [“Method for obtaining eutectic thermo-diffusion-deposited coatings”], Metallovedenie i termicheskaia obrabotka metallov [Metallurgy and heat treatment of metals], no. 6, pp. 26–30, 1989. [in Russian].
dc.relation.references[8] V. M. Golubetc, and M. I. Pashechko, Iznosostoikost pokrytii iz evtektiki na osnove sistemy Fe-Mn-C-B [Wear resistance of eutectic coatings based on the Fe-Mn-C-B system]. Kyiv, Ukraine: Naukova Dumka Publ., 1989. [in Russian].
dc.relation.references[9] M. V. Maltcev, Metallografiia tugoplavkikh, redkikh i radioaktivnykh metallov i splavov [Metallography of refractory, rare and radioactive metals and alloys]. Moscow, Russia: Metallurgiia Publ., 1971. [in Russian].
dc.relation.references[10] V. M. Holubets, and O. V. Bilous, “Trybotekhnichni vlastyvosti zmitsnenykh elektroiskrovoiu i lazernoiu obrobkoiu instrumentalnykh stalei pry tochinni derevynnykh materialiv” [“Tribotechnical properties of hardened electroscope and laser treatment of instrumental steels when finishing wood materials”], Naukovyi visnyk [Scientific Bulletin], vol. 12.2, pp. 107–116, 2002. [in Ukrainian].
dc.relation.references[11] V. K. Grishin, et al., Svoistva litiia [Properties of lithium]. Moscow, Russia: Metallurgizdat Publ., 1963. [in Russian].
dc.relation.references[12] M. Khansen, and K. Anderko, Struktury dvoinykh splavov [Structures of binary alloys], vol. 2. Moscow, Russia: Metallurgizdat Publ., 1962. [in Russian].
dc.relation.references[13] R. P. Elliot, Struktury dvoinykh splavov [Structures of binary alloys]. Moscow, Russia: Metallurgiia Publ., 1970. [in Russian].
dc.relation.references[14] O. V. Bilous, et al., “Vplyv vydu nanesenoho pokryttia na trybotekhnichni vlastyvosti rizhuchoho instrumentu” [“Influence of the kind of applied coating on the tribotechnical properties of the cutting tool”], Naukovyi visnyk: Problemy derevoobrobky na rubezhi XXI stolittia: nauka, osvita, tekhnolohii [Scientific Bulletin: Problems of woodworking at the turn of the 21st century: science, education, technologies], vol. 9.5, pp. 239–245, 1999. [in Ukrainian].
dc.relation.references[15] O. V. Bilous, et al., “Vplyv rezhymiv rizannia na stiikist instrumentu pry tochinni derevyny” [“Effect of cutting modes on the stability of the tool for finishing wood”], Naukovyi visnyk [Scientific Bulletin], vol. 11.1, pp. 88–89, 2000. [in Ukrainian].
dc.relation.references[16] O. B. Hasii, “Rozrobka evtektychnykh elektrodiv dlia elektroiskrovoho zmitsnennia detalei mashyn i osnashchennia” [“Development of eutectic electrodes for electroscrew strengthening of machine parts and equipment”], PhD dissertation, Karpenko Physico-Mechanical institute of the NAS of Ukraine, Lviv, Ukraine, 1993. [in Ukrainian].
dc.relation.referencesen[1] A. D. Verkhoturov, et al., "Svoistva iznoso-stoikikh pokrytii iz evtekticheskikh splavov khrom – karbid" ["Properties of wear-resistant coatings from eutectic chromium-carbide alloys"], Poroshkovaia metallurgiia [Powder metallurgy], no. 3, pp. 45–50, 1984. [in Russian].
dc.relation.referencesen[2] O. V. Bilous, et al., "Vprovadzhennia suchasnykh tekhnolohii zmitsnennia instrumentalnykh stalei dlia obrobky derevynnykh materialiv" ["Implementation of modern technologies for the strengthening of instrumental steels for the processing of wood materials"], Naukovyi visnyk NLTU Ukrainy [Scientific Bulletin of UNFU], vol. 22.6, pp. 86–90, 2012. [in Ukrainian].
dc.relation.referencesen[3] V. M. Golubetc, and M. I. Pashechko, "Printcipy sozdaniia i osobennosti formirovaniia evtekticheskikh pokrytii iz zhidkoi fazy" ["Principles of creation and features of the formation of eutectic coatings from the liquid phase"], Fizyko-khimichna mekhanika materialiv [Physico-Chemical Mechanics of Materials], no, pp. 25–29, 1984. [in Russian].
dc.relation.referencesen[4] V. M. Golubetc, Dolgovechnost evtekticheskikh pokrytii v korrozionnykh sredakh [Durability of eutectic coatings in corrosive environments]. Kyiv, Ukraine: Naukova Dumka Publ., 1990. [in Russian].
dc.relation.referencesen[5] V. P. Glukhov, Boridnye pokrytiia na zheleze i stali [Boride coatings on iron and steel]. Kyiv, Ukraine: Naukova Dumka Publ., 1970. [in Russian].
dc.relation.referencesen[6] M. I. Pashechko, V. M. Golubetc, and M. V. Chernetc, Formirovanie i friktcionnaia stoikost evtekticheskikh pokrytii [Formation and frictional resistance of eutectic coatings]. Kyiv, Ukraine: Naukova Dumka Publ., 1993. [in Russian].
dc.relation.referencesen[7] M. I. Pashechko, and V. M. Golubetc, "Sposob polucheniia evtekticheskikh termo-diffuzionnonaplavlennykh pokrytii" ["Method for obtaining eutectic thermo-diffusion-deposited coatings"], Metallovedenie i termicheskaia obrabotka metallov [Metallurgy and heat treatment of metals], no. 6, pp. 26–30, 1989. [in Russian].
dc.relation.referencesen[8] V. M. Golubetc, and M. I. Pashechko, Iznosostoikost pokrytii iz evtektiki na osnove sistemy Fe-Mn-C-B [Wear resistance of eutectic coatings based on the Fe-Mn-C-B system]. Kyiv, Ukraine: Naukova Dumka Publ., 1989. [in Russian].
dc.relation.referencesen[9] M. V. Maltcev, Metallografiia tugoplavkikh, redkikh i radioaktivnykh metallov i splavov [Metallography of refractory, rare and radioactive metals and alloys]. Moscow, Russia: Metallurgiia Publ., 1971. [in Russian].
dc.relation.referencesen[10] V. M. Holubets, and O. V. Bilous, "Trybotekhnichni vlastyvosti zmitsnenykh elektroiskrovoiu i lazernoiu obrobkoiu instrumentalnykh stalei pry tochinni derevynnykh materialiv" ["Tribotechnical properties of hardened electroscope and laser treatment of instrumental steels when finishing wood materials"], Naukovyi visnyk [Scientific Bulletin], vol. 12.2, pp. 107–116, 2002. [in Ukrainian].
dc.relation.referencesen[11] V. K. Grishin, et al., Svoistva litiia [Properties of lithium]. Moscow, Russia: Metallurgizdat Publ., 1963. [in Russian].
dc.relation.referencesen[12] M. Khansen, and K. Anderko, Struktury dvoinykh splavov [Structures of binary alloys], vol. 2. Moscow, Russia: Metallurgizdat Publ., 1962. [in Russian].
dc.relation.referencesen[13] R. P. Elliot, Struktury dvoinykh splavov [Structures of binary alloys]. Moscow, Russia: Metallurgiia Publ., 1970. [in Russian].
dc.relation.referencesen[14] O. V. Bilous, et al., "Vplyv vydu nanesenoho pokryttia na trybotekhnichni vlastyvosti rizhuchoho instrumentu" ["Influence of the kind of applied coating on the tribotechnical properties of the cutting tool"], Naukovyi visnyk: Problemy derevoobrobky na rubezhi XXI stolittia: nauka, osvita, tekhnolohii [Scientific Bulletin: Problems of woodworking at the turn of the 21st century: science, education, technologies], vol. 9.5, pp. 239–245, 1999. [in Ukrainian].
dc.relation.referencesen[15] O. V. Bilous, et al., "Vplyv rezhymiv rizannia na stiikist instrumentu pry tochinni derevyny" ["Effect of cutting modes on the stability of the tool for finishing wood"], Naukovyi visnyk [Scientific Bulletin], vol. 11.1, pp. 88–89, 2000. [in Ukrainian].
dc.relation.referencesen[16] O. B. Hasii, "Rozrobka evtektychnykh elektrodiv dlia elektroiskrovoho zmitsnennia detalei mashyn i osnashchennia" ["Development of eutectic electrodes for electroscrew strengthening of machine parts and equipment"], PhD dissertation, Karpenko Physico-Mechanical institute of the NAS of Ukraine, Lviv, Ukraine, 1993. [in Ukrainian].
dc.rights.holder© Національний університет „Львівська політехніка“, 2018
dc.rights.holder© Bilous O., Mahura B., 2018
dc.subjectelectro-spark alloying
dc.subjecteutectic alloy
dc.subjectfractography of a break
dc.subjectX-ray phase method
dc.subjectspectral analysis
dc.subjectsintering method
dc.titleApplication of wear-resistant coating by electrospark alloying method using an eutectic electrode material
dc.typeArticle

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