Manufacturing Technology 2023, 23(1):73-80 | DOI: 10.21062/mft.2023.006
Influence of Using Cutting Fluid under the Effect of Static Magnetic Field on Chip Formation in Metal Cutting with HSS Tools (turning operation)
- 1 Faculty of Machine Construction, Tashkent state technical university 100095, Tashkent. Uzbekistan
- 2 Faculty of Mechanics, Tashkent state technical university 100095, Tashkent. Uzbekistan
This paper presents a new method of improving the material removal process in metal cutting. Chip formation plays an important factor in the metal cutting process and increasing its condition has a great impact on cutting machine details. Based on lubricating cooling conditions in the metal cutting process, a novel methodology is proposed to decrease the deformation that emerged in the material removal process while cutting cylindrical details in lathes. Application of stating magnetic field on flowing cutting fluids decreased the shrinkage of the chip in turning operation. Analytical and practical experiments show that the effect of cutting fluid under the influence of a static magnetic field decreased the shrinkage of the chip up to 20 % in comparison to the conventional use of cutting fluids in turning cylindrical pars with HSS tools.
Keywords: Cutting fluid, Chip shrinkage, Metal cutting, Magnetic field, Turning
Received: October 21, 2022; Revised: December 30, 2022; Accepted: January 18, 2023; Prepublished online: April 24, 2023; Published: May 3, 2023 Show citation
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References
- WAVDHANE, Y., SONAVANE P., PAWAR U., FIROZ P. (2016). Effect of coolant on surface roughness and tool life during turning. International journal of advanced technology in engineering and science, Volume 4, Issue 4, pp. 408-415
- KAIROV, A., LIMAR, A., ANASTASENKO, S. (2014). Increased strength characteristics of cutting tool by applica-tion cooling and lubricating the technological environment. Visnik NTUU <<KPI>>. Seria mashinobuduvannya, Volume 70, Issue 1, pp. 88-93
- POPOV, A., KHRAMENKOV, M. (2019). Effect of Hydraulic Oil Entering the Cutting Fluid on the Tool Life and Roughness in Milling of Structural Steel. Manufacturing Technology, Volume 19, Issue 3, pp. 482-486. DOI: https://doi.org/10.21062/ujep/316.2019/a/1213-2489/MT/19/3/482
Go to original source...
- UMAROV, E.O., MARDONOV, U.T. (2020). General characteristic of technological lubricating cooling liquids in metal cutting process. International Journal of Research in Advanced Engineering and Technology, Volume 6, Issue 2, pp. 01-03
- ERKIN, U., UMIDJON, M., & UMIDA, S. (2021, September). Application of Magnetic Field on Lubricating Cooling Technological Condition in Metal Cutting Process. In International Conference on Reliable Systems Engineering (pp. 100-106). Springer, Cham
Go to original source...
- JÁNOS, K., ZOLTÁN, P. (2019). The Change of Tool Life in a Wide Range of Cutting Speeds in Hard Turning. Manufacturing Technology, Volume 19, Issue 2, pp. 254-260. DOI: https://doi.org/10.21062/ujep/279.2019/a/1213-2489/MT/19/2/254
Go to original source...
- JIANJIAN CHEN, YUFENG WANG, YAN ZHANG, SHUBAO YANG, XINGQUAN ZHANG. (2020). The Change of Tool Life in a Wide Range of Cutting Speeds in Hard Turning. Manufacturing Technology, Volume 20, Issue 1, pp. 36-44. DOI: https://doi.org/10.21062/mft.2020.011
Go to original source...
- KISEL, A.G., RECHENKO, D.S., POPOV, A.YU., RAJKOVSKIY, A.A. (2013). Vliyanie smazochno-oxlajdayushey jidkosti na stoykost metallorejushego instrumenta pri tokarnoy obrabotke [Effect of lubricant cooling liquid on durability of metal-cutting tool when turning]. Systems. Methods. Technologies, Volume 20, Issue 4, pp. 138-142
- PASTUNOVA, V.A., SLADKOVA, T.A., SHPINKOV, V.A. (1978). Opit vnedreniya novix smazochno-oxlajdayushix jidkostey [Experience in introducing new cutting fluids]. Obrabotka konstruksionnix materialov re-zaniem s primeneniem SOJ, pp. 34-38
- KISELYOV, Y.S., UNYASHIN, A.N., KURGANOVA, S.Z. (1995). Texnologicheskaya effektivnost sovremennix SOJ dlya lezviynoy obrabotki [Technological efficiency of modern cutting fluids]. STIN, Issue 1, pp. 22-25
Go to original source...
- UMAROV, E., MARDONOV, U., ABDIRAKHMONOV, K., ESHKULOV, A., & RAKHMATOV, B. (2021). Effect of magnetic field on the physical and chemical properties of flowing lubricating cooling liquids used in the manufacturing process. IIUM Engineering Journal, Volume 22, Issue 2, pp: 327-338. doi: https://doi.org/10.31436/iiumej.v22i2.1768
Go to original source...
- UMAROV, E.O., MARDONOV, U.T., SHOAZIMOVA, U.K. (2020). Influence of the Magnetic Field on the Viscosity Coefficient of Lubricoolant that is used in the Cutting Proces. International Journal of Mechatronics and Applied Mechanics, Volume 8, Issue 2, pp: 144-149. doi: https://www.doi.org/10.17683/ijomam/issue8.50
- UMIDJON, M., MUHAMMAD, T., ANDREY, J., YAHYOJON M. (2021). The difference between the effect of electromagnetic and magnetic fields on the viscosity coefficients of cutting fluids used in cutting processes. International Journal of Mechatronics and Applied Mechanics, Volume 10, Issue 1, pp. 117-122. doi: dx.doi.org/10.17683/ijomam/issue10/v1.14
Go to original source...
- REZNIKOV, A.N. (1962). Teoreticheskie osnovi aktivnogo oxlajdeniya instrumentov. Obrabativaemost jaroprochnix i ti-tanovix splavov [Theoretical Foundations of Active Cooling of Instruments. Machinability of high temperature and titanium alloys]. Trudi vsesoyuznoy mejvuzovskoy konferensii. Editor - Kuybishev: KAI, pp. 247-260
- PRADEEP KUMAR, M., AMARNATH, K., SUNIL KUMAR, M. (2015). A Review on Heat Generation in Metal Cutting. International Journal of Engineering and Management Research, Volume 5, Issue 4, pp. 193-197
- UMIDJON, M., JELTUKHIN, A., MELIBOYEV, Y., & AZAMAT, B. (2023). Effect of Magnetized Cutting Fluids on Metal Cutting Process. In International Conference on Reliable Systems Engineering (pp. 95-104). Springer, Cham. doi: https://doi.org/10.1007/978-3-031-15944-2_9
Go to original source...
- NODIR, T., SARVAR, T., ANDREY, J., & YAHYOJON, M. (2022). Mathematical Model for Calculating Heat Exchange. In Lecture Notes in Networks and Systems (Vol. 305). https://doi.org/10.1007/978-3-030-83368-8_24
Go to original source...
- ULJAYEV, E., UBAYDULLAYEV, U.M., TADJITDINO,V G.T., NARZULLAYEV, SH. (2020). Development of Criteria for Synthesis of the Optimal Structure of Monitoring and Control Systems. 11th World Conference "Intelligent System for Industrial Automation" (WCIS-2020). Advances in Intelligent Systems and Computing, vol 1323. Springer, Cham. https://doi.org/10.1007/978-3-030-68004-6_73E
Go to original source...
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