INFLUENCE OF SPEED OF DEFORMATION ON CUTTING FORCE
Abstract
In the article, a study of the influence of the deformation rate on the change in the resistance forces was carried out. It is known that the experimental points do not coincide with the power line of the trend and this situation is explained by the error of the experiment. Analysis of the results of work obtained under different conditions by different researchers showed the possibility of a sinusoidal dependence of the cutting force on the cutting speed. To test this hypothesis, the cutting speed was changed by changing the diameter of the processed part at a constant spindle speed. This approach excludes the possible influence of rotations of machine parts. The results (values of cutting forces) obtained in this way during turning made it possible to predict the extreme values of the functions. They are not related to the rotation of the machine parts, which confirms the influence of only the deformation rate on the sinusoidal dependence of the resistance force.
References
2. Chuangwen X., Ting X., Xiangbin Y., Jilin Z., Wenli L., Huaiyuan L. Experimental tests and empirical models of the cutting force and surface roughness when cutting 1Cr13 martensitic stainless steel with a coated carbide tool / Advances in Mechanical Engineering 2016, Vol. 8(10) 1–10, 2016, doi: 10.1177/1687814016673753
3. Okokpujie I. P., Tartibu L. K. Experimental analysis of cutting force during machining difficult to cut materials under dry, mineral oil, and TiO2 nano-lubricant / Journal of measurements in engineering. december 2021, volume 9, issue 4.
4. Thangarasu S. K. , Shankar S., Thomas A Tony, Sridhar G. Prediction of Cutting Force in Turning Process-an Experimental Approach / IOP Conf. Series: Materials Science and Engineering 310 (2018) 012119, doi:10.1088/1757-899X/310/1/012119
5. Gunay M., Korkut I., Aslan E., Seker U. Experimental investigation of the effect of cutting tool rake angle on main cutting force / Journal of Materials Processing Technology 166 (2005) 44–49, doi:10.1016/j.jmatprotec.2004.07.092
6. Korkmaz M. E., Yasar N., Günay M. Numerical and experimental investigation of cutting forces in turning of Nimonic 80A superalloy / Engineering Science and Technology, an International Journal 23 (2020) 664–673.
7. Korkut I., Boy M. Experimental Examination of Main Cutting Force and Surface Roughness Depending on Cutting Parameters / Strojniški vestnik – Journal of Mechanical Engineering 54(2008)7-8, 531-538.
8. Łukasz Ślusarczyk, Emilia Franczyk. The experimental determination of cutting forces in a cutting zone during the orthogonal turning of a GRADE 2 titanium alloy tube / Technical transactions mechanics, 8(2019) doi: 10.4467/2353737XCT.19.088.10867.
9. Zoltan Iosif Korka Z., Micloşină C.-O., Cojocaru V. An Experimental Study of the Cutting Forces in Metal Turning / Analele universitătii “Eftimie murgu” reşita, anul XX, No. 2, 2013, p 25-32.
10. Kuzinovski, M., Trajčevski, N., Cichosz, P. Investigation of cutting forces during machining process by high speed turning, Journal of Production Engineering, Vol. 12, No.1, pp. 29 – 32.
11. Gôkçe H. Experimental and numerical investigation of cutting forces and temperatures in milling of custom 450 steel / Archiwes of Metallurgy and Materials, 67 (2022), 3, pp. 843-853, doi: https://doi.org/10.24425/amm.2022.139674.
12. Balasubramaniyan Singaravel, Thangiah Selvaraj. Experimental investigation on cutting forces, specific cutting pressure, co-efficient of friction and shear energy in turning of HSLA steel / Management and Production Engineering Review, Volume 7, Number 1 (2016), pp. 71 – 76 doi: 10.1515/mper-2016-0008
https://scholar.google.com.ua/citations?
