Research of the Temperature of the Electric Diamond Grinding Process
Keywords:
Grinding, cutting, abrasive tool, temperature, cutting fluid, machining
Abstract
Cutting is a universal method of dimensional processing and therefore occupies an important place in mechanical engineering. The method makes it possible to process the surfaces of parts made from the most commonly used structural, hard-to-cut materials of various shapes and sizes with high accuracy and a specified roughness. The article discusses the influence of grinding temperature on electrolyte consumption and cutting (grinding) tools.
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References
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Zarudi, I., & Zhang, L. C. (2002). Mechanical property improvement of quenchable steel by grinding. Journal of materials science, 37, 3935-3943.
Kwak, J. S., & Kim, Y. S. (2008). Mechanical properties and grinding performance on aluminum-based metal matrix composites. Journal of materials processing technology, 201(1-3), 596-600.
Paley M.M., Dibner L.G., Fild M.F. Texnologiya shlifovaniya i zatochki rejushego instrumenta [Technology of grinding and sharpening cutting tools]. – M.: Mashinostroenie, 1988. 190p.
Raximyanov X.M., Krasilnikov B.A., Yanpolskiy V.V. Povishenie proizvoditelnosti protsessa elektroalmaznogo shlifovaniya bistrorejushix staley [Increasing the productivity of the process of electric diamond grinding of high-speed steels]. Obrabotka metallov: texnologiya, oborudovanie, instrumenti. 2006. №4 (33). URL: https://cyberleninka.ru/article/n/povyshenie-proizvoditelnosti-protsessa-elektroalmaznogo-shlifovaniya-bystrorezhuschih-staley (data obrasheniya: 15.03.2024).
Bobrov V.F. Osnovi teorii rezaniya metallov [Fundamentals of metal cutting theory]. – M.: Mashinostroenie. – 1975. – 344p.
Odilovich, U. E., & Ugli, M. U. T. (2020). Analyzing the effect of magnetic field on Lubricoolant in machining process. IJAR, 6(5), 347-352.
Umarov, E. O., Mardonov, U. T., & Turonov, M. Z. (2021, January). Measurement of dynamic viscosity coefficient of fluids. In Euro-Asia Conferences (Vol. 1, No. 1, pp. 37-40).
Shepelev A.A. Sorochenko V.G., Drojjin V.I. Temperatura pri almazno-abrazivnom rezanii polimernix kompozitsionnix materialov [Temperature during diamond abrasive cutting of polymer composite materials]. Nauka i osvita: Zbirnik naukovix pras (do 40-richchya spivprasi Nasionalnogo texnichnogo universitetu «Xarkivskiy politexnichniy institut» ta Mishkolskogo universitetu). – Xarkiv: NTU «XPI», 2004. – S. 231 – 242.
Yejemesyachniy nauchno-texnicheskiy i proizvodstvenniy jurnal «Vestnik mashinostroeniya». Izdatelstvo «Mashinostroenie» 1978, №12
Pereira, G. K. R., Fraga, S., Montagner, A. F., Soares, F. Z. M., Kleverlaan, C. J., & Valandro, L. F. (2016). The effect of grinding on the mechanical behavior of Y-TZP ceramics: A systematic review and meta-analyses. Journal of the mechanical behavior of biomedical materials, 63, 417-442.
Ren, X., Huang, X., Chai, Z., Li, L., Chen, H., He, Y., & Chen, X. (2021). A study of dynamic energy partition in belt grinding based on grinding effects and temperature dependent mechanical properties. Journal of Materials Processing Technology, 294, 117112.
Published
2024-05-28
How to Cite
Jeltukhin A.V., & Sirojidinov Sh.I. (2024). Research of the Temperature of the Electric Diamond Grinding Process. Central Asian Journal of Theoretical and Applied Science, 5(3), 122-125. Retrieved from https://cajotas.centralasianstudies.org/index.php/CAJOTAS/article/view/1461
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