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In current conditions, great attention is paid to the quality of parts, which is in many ways determined by finishing operations of mechanical treatment, with surface grinding being the most widespread. Grinding process efficiency, abrasive tool wear intensity, machined surface quality and other features of grinding process depend on properties of the environment, where the cutting process takes place. Forced changing of conditions of this environment is one of the ways to control and optimize the grinding process, which can be reached due to finding new technological decisions. One of the most promising directions to solve this problem is the process of face grinding with discontinuous grinding tool and supply of cooling fluid or air in the cutting zone directly. Carried analysis of features of face grinding has shown that heat density can be decreased by the usage by grooved wheels with vortex air cooling or by supply of cooling-lubricant technological fluid. Obtained dependences of temperature field of part surface during grinding establish the influence of the length of working shoulders and grooves, vortex tubes number, outflow rate, temperature and flow rate of cold vortex flow of air. These data provide conscious control over the process of discontinuous face grinding by changing wheel grain size and grinding speed.
Wydawca
Rocznik
Tom
Strony
166--177
Opis fizyczny
Bibliogr. 12 poz., fig., tab.
Twórcy
autor
- Silesian University of Technology, Poland
autor
- Tchaikovsky Branch “Perm National Research Polytechnic Institute”, Federal State Budgetary Institution of Science “Udmurt Federal Research Center of the Ural Branch of the Russian Academy of Sciences“, Institute of Mechanics, Russia
autor
- Lipetsk State Technical University, Russia
autor
- Rexroth Bosch Group Canada
Bibliografia
- 1. RF patent for invention № 2095227 / IPC 6 V 55/02, V 24 D 7/10 Abrasive tool for flat grinding / Svitkovsky F.Yu., Ivanova T.N., Kurko V.I., Osipova T.I. (Russia). Publ. 10.11.97 Bul. No. 31.
- 2. Ivanova T.N., Korshunov A.I., Zavialov P.M. (2018) Influence of process fluids properties on component surface convective heat emission MEACS 2017 IOP Publishing IOP Conf. Series: Materials Science and Engineering 327 022051 doi:10.1088/1757-899X/327/2/022051.
- 3. Dement′ev V.B., Ivanova T.N., Dolginov A.M. (2017) Temperature of heating and cooling of massive, thin, and wedge-shaped plates from hard-to-machine steels during their grinding. Journal of Engineering Physics and Thermophysics. Vol. 90, Issue 1, pp. 102-109.
- 4. Ivanova T.N. (2016) Design and technology support of the grinding process for heavily-machined steel sheets. 2nd International Conference on Industrial Engineering (ICIE-2016) Edited by Andrey A. Radionov. Procedia Engineering. Vol. 150, p. 782-788 Crossref DOI link: https://doi.org/10.1016/j.proeng.2016.07.112.
- 5. Nosov N., Bobrovskij S., Levitskih O., Khaimovich A., Kanatnikov N., Metel A., Zaides S. (2019) Study of defects of the surface of rolls of rolling bearings under grinding. IOP Conference Series: Materials Science and Engineering 537, 032032.
- 6. Rezchikov A.F., Kochetkov A.V., Zakharov O.V. (2017) Mathematical models for estimating the degree of influence of major factors on performance and accuracy of coordinate measuring machines. MATEC Web Conf. Vol. 129, p. 01054.
- 7. Tyuhta A.V., Vasilenko Y.V., Kozlov A.M. Ways to Enhance Environmental Flat Grinding by Improving the Technology of the Coolant Supply // Procedia Engineering 150 (2016) pp. 1073-1080 doi: 10.1016/j.proeng.2016.07.217.
- 8. Nikitina I.P., Polyakov A.N. (2021) Specific features of thermal processes in double-sided face grinding machines. Bulletin of Belgorod State Technological University named after V G Shukhov. Vol. 1, pp. 82-94.
- 9. Troshin A.A., Zakharov O.V. (2020) Classification of screw surfaces in cutting tool manufacturing. Geometric and computer modeling in training specialists for the digital economy. Materials of the International Scientific and Practical Conference dedicated to the 90th anniversary of the Saratov State Technical University named after Gagarin Yu.A. pp. 105-107.
- 10. Tambiev M.Sh. (2018) Structural analysis of combined grinding wheels. In the collection: Progressive technologies and processes. Collection of scientific articles of the 5th All-Russian scientific and technical conference with international participation. Managing editor A.A. Gorokhov. pp. 246-250.
- 11. Yanyushkin A.S., Lobanov D.V., Skeeba V.Yu., Gartfelder V.A., Sekletina L.S. (2017) Enhancing the effectiveness of the diamond metal bond instrument when grinding high-strength materials. Metal Working and Material Science. Vol № 3 (76), pp. 17-27.
- 12. Nikiforov I.P., Maltsev P.N. (2014) Optimization of the longitudinal feed during surface grinding structural carbon steel. Bulletin of the Pskov State University. Series: economic and technical sciences. Vol. 4, pp. 146-153.
Uwagi
EN
The article was written in support of BK-273/ROZ3/2021 (13/030/BK_21/0065) research under the title "Department of Production Engineering’ resources development for carrying out activities in the areas related to the Silesian University of Technology Priority Research Areas”.
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e1a1a537-e0fb-41b9-a7f5-d9036b169db3