Abstract
In this paper, the main cutting force, feed force and thrust force of model in elliptical ultrasonic vibration processing research is carried out. Mechanism of ultrasonic vibration processing of ellipse, and the analysis of the main cutting force, thrust force and feed force has been cut down by means of applying elliptical ultrasonic vibration is carried out in theory. Finally, Experimental results show the result of elliptical ultrasonic vibration processing on main cutting force, feed force and thrust force.
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References
Shamoto, E., Moriwaki, T.: Elliptical vibration cutting. Ann. CIRP 43, 35–38 (1994)
Shamoto, E., Ma, C., Moriwaki, T.: Elliptical vibration cutting (the third report). J. Jpn. Soc. Precis. Eng. 65, 586–591 (1999)
Ma, C., Shamoto, E., Sattayawuthipho, B., Moriwaki, T.: Suppression of chatter in turning by elliptical ultrasonic vibration. Memories of Graduate School of Science and Technology, Kobe University 17-A, pp. 47–62 (1999)
Ma, C., Shamoto, E., Moriwaki, T., Zhang, Y., Wang, L.: Suppression of burrs in turning with elliptical ultrasonic vibration processing. Int. J. Mach. Tools Manuf. 45, 1295–1300 (2005)
Shamoto, E., Ma, C., Moriwaki, T.: Ultraprecision ductile cutting of glass by elliptical ultrasonic vibration processing. In: Proceedings of the 1st International Conference of European Society Precision Engineering and Nanotechnology, pp. 408–411 (1999)
Shamoto, E., Moriwaki, T.: Ultaprecision diamond cutting of hardened steel by applying elliptical ultrasonic vibration processing. Ann. CIRP 48, 441–444 (1999)
Brinksmeier, E., Gläbe, R.: Elliptical vibration cutting of steel with diamond tools. In: Proceedings of the 14th Annual ASPE Meeting, USA, pp. 163–166 (1999)
Nath, C., Rahman, M., Neo, K.S.: Machinability study of tungsten carbide using PCD tools under elliptical ultrasonic vibration processing. Int. J. Mach. Tools Manuf. 49, 1089–1095 (2009)
Nath, C., Rahman, M., Neo, K.S.: A study on elliptical ultrasonic vibration processing of tungsten carbide. J. Mater. Process. Technol. 209, 4459–4464 (2009)
Suzuki, N., Yokoi, H., Shamoto, E.: Micro/nano sculpturing of hardened steel by controlling vibration amplitude in elliptical vibration cutting. Precis. Eng. 35, 44–50 (2011)
Kim, G.D., Loh, B.G.: An elliptical ultrasonic vibration processing device for micro V-groove machining: kinematical analysis and micro V-groove machining characteristics. J. Mater. Process. Technol. 190, 181–188 (2007)
Suzuki, N., Haritani, M., Yang, J., Hino, R., Shamoto, E.: Elliptical vibration cutting of tungsten alloy molds for optical glass parts. Ann. CIRP 56(1), 127–130 (2007)
Song, Y.C., Park, C.-H., Moriwaki, T.: Mirror finishing of Co–Cr–Mo alloy using elliptical vibration cutting. Precis. Eng. 34, 784–789 (2010)
Ma, C., Shamoto, E., Moriwaki, T., Wang, L.: Study of machining accuracy in elliptical ultrasonic vibration processing. Int. J. Mach. Tools Manuf. 44, 1305–1310 (2004)
Ma, C., Shamoto, E., Moriwaki, T.: Study on the thrust cutting force in elliptical ultrasonic vibration processing. Mater. Sci. Forum 471–472, 396–400 (2004)
Brehl, D.E., Dow, T.A.: Review of vibration-assisted machining. Precis. Eng. 32, 153–172 (2008)
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The author is very grateful to editors for his hard work and the editor’s rationalization proposal.
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Zhang, C. (2019). Study on the Cutting Force in Elliptical Ultrasonic Vibration Cutting. In: Xhafa, F., Patnaik, S., Tavana, M. (eds) Advances in Intelligent, Interactive Systems and Applications. IISA 2018. Advances in Intelligent Systems and Computing, vol 885. Springer, Cham. https://doi.org/10.1007/978-3-030-02804-6_147
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DOI: https://doi.org/10.1007/978-3-030-02804-6_147
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