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Mathematical Modeling of the Process of the Interaction of the Cutting Diamond Disk with the Environment

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dc.contributor.author Bezpalova, A.
dc.contributor.author Lebedev, V.
dc.contributor.author Morozov, Yu.
dc.contributor.author Chumachenko, T.
dc.contributor.author Klymenko, Nataliya
dc.date.accessioned 2020-07-11T11:58:32Z
dc.date.available 2020-07-11T11:58:32Z
dc.date.issued 2020-01
dc.identifier.citation Bezpalova, A., Lebedev, V., Morozov, Yu., Chumachenko, T., Klymenko, N. (2019). Mathematical Modeling of the Process of the Interaction of the Cutting Diamond Disk with the Environment. Advanced Manufacturing Processes, Selected Papers from the Grabchenko’s International Conference on Advanced Manufacturing Processes (InterPartner-2019), Ukraine, Odessa, September 10-13, 2019, 3-14. en
dc.identifier.citation Mathematical Modeling of the Process of the Interaction of the Cutting Diamond Disk with the Environment / A. Bezpalova, V. Lebedev, Yu. Morozov, T. Chumachenko, N. Klymenko // Advanced Manufacturing Processes : selected Papers from the Grabchenko’s International Conference on Advanced Manufacturing Processes (InterPartner-2019), Ukraine, Odessa, september 10-13, 2019. - 2019. - Р. 3-14. en
dc.identifier.isbn 978-3-030-40723-0
dc.identifier.isbn 978-3-030-40724-7
dc.identifier.issn 2195-4356
dc.identifier.issn 2195-4364
dc.identifier.uri http://dspace.opu.ua/jspui/handle/123456789/10837
dc.description.abstract Cutting of solid construction materials during repair and restoration work is car-ried out with diamond discs and CBN discs on a metal bond with speeds up to 80 m / s. The cutting process is accompanied by significant heat generation, as a re-sult of which the cutting disc heats up intensively. When heated to a temperature of 500–600 ºС, the strength characteristics of the disk are halved, which can lead to rupture and seizure of the disk and loss of the diamond layer. Disk heating temperature should not exceed 600 ºС. The operating time of the diamond cutting disc is the time during which it is heated during continuous operation to a temper-ature of 600 ºС. The cooling media used in cutting are intensively discarded by the air flows of the boundary layer of air that circulate near the rotating circle. Knowing the speed and dimensional characteristics of these flows, we can devel-op a rational cooling system. The purpose of the study is to determine the condi-tions of transportation of cooling media, ensuring their guaranteed entry into the cutting zone to create the maximum cooling effect. In work with the help of math-ematical modeling defined the speeds of flowing air in the near-wall area and in the area tangential to the disk. The thickness of the air layer, which rotates at a speed of up to 0.5 circle speed was determined, taking this value as the “bounda-ry layer thickness”. The change in air pressure in the cutting zone between the cutting grains was determined too. It is established that air pressure can vary from 0.5 - 1.7 MPa. In this regard, the cooling medium supplied under the circle, inevi-tably displaced from the cutting zone. In order for the cooling medium to pene-trate into the cutting zone, it must be fed under a pressure that exceeds the air pressure in the cutting zone. en
dc.language.iso en en
dc.publisher Springer en
dc.subject Boundary Layer en
dc.subject Air Pressure en
dc.subject Boundary Layer Thickness en
dc.subject Cutting Zone en
dc.subject Mathematical Modeling en
dc.subject Cooling Media en
dc.subject Operating Time en
dc.subject Diamond Disc en
dc.title Mathematical Modeling of the Process of the Interaction of the Cutting Diamond Disk with the Environment en
dc.title.alternative Математическое моделирование процесса взаимодействия режущего алмазного диска с окружающей средой en
dc.type Article in Scopus en
opu.kafedra Кафедра Технології конструкційних матеріалів та матеріалознавства uk
opu.citation.journal Advanced Manufacturing Processes en
opu.citation.firstpage 3 en
opu.citation.lastpage 14 en
opu.citation.conference Selected Papers from the Grabchenko’s International Conference on Advanced Manufacturing Processes (InterPartner-2019) en
opu.staff.id lebedev.v.g@opu.ua en
opu.staff.id chumachenko.t.v@opu.ua en
opu.staff.id klimenko.n.m@opu.ua en
opu.staff.id morozov@opu.ua
opu.conference.dates September 10–13, 2019, Odessa, Ukraine en


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