Abstract
The process of cutting of an aluminum alloy has been monitored by the acoustic emission method. Single-crystal natural and synthetic diamond tools have been used in the investigation. The comparative analysis has demonstrated that the correlation model of acoustic emission, which was put forward by Pan and Dornfeld, is valid for the conditions of fine diamond turning of aluminum alloys.
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Kannatey-Asibu Jr., E., Dornfeld, D.A., A study of tool wear using statistical analysis of metal cutting acoustic emission, Wear, 1982, vol. 76, pp. 247–261.
Kannatey-Asibu Jr., E., Dornfeld, D.A., Quantitative relationships for acoustic emission from orthogonal metal cutting, ASME, J. Eng. Industry, 1981, vol. 103, pp. 330–340.
Lan, N.S. and Dornfeld, D.A., Acoustic emission and machining—process analysis and control, Int. J. Adv. Manuf. Process, 1986, vol. 1, pp. 1–21.
Teti, R. and Dornfeld, D.A., Modeling and experimental analysis of acoustic emission from metal cutting, J. Eng. Industry, 1989, vol. 111, pp. 229–237.
Devin, L.N., Stakhniv, N.E., and Naidenko, A.G., The use of the acoustic emission method for the assessment of the polycrystalline diamond tools in turning aluminum alloys, in Rezanie i instrument v tekhnologicheskikh systemakh. Mezhdunar. nauchn.-tekhn. sb. (Cutting and Tools in Manufacturing Systems. Int. Collect. Sci.-Tech. Papers), Kharkiv: NTU "KhPI", 2002, issue 62, pp. 44–47.
Devin, L.N., Stakhniv, N.E., and Sulima, A.G., An automated system for measuring acoustic emission signals in the process of precision diamond turning, in Sovremennye problemy proizvodstva i remonta v promyshlennosti i na transporte. Mater. 11-go Mezhdunar. nauchn.tekhn. seminara (Contemporary Issues of Production and Repair in Manufacturing and Transport Industries. Proc. 11th Int. Sci-Techn. Workshop, Svalyava, 21–25 February, 2011) Kyiv: ATM Ukrainy, 2011, pp. 79–81.
Devin, L.N. and Novikov, N.V., Broad-band acoustic emission sensors for monitoring the cutting tool condition, Tekhn. Diagnost. Nerazr. Kontr., 2008, no. 4, pp. 81–85.
Devin, L.N. and Sulima, A.G., The use of PowerGraph software package for the study of cutting process, Promyshl. Izmer. Kontr. Avtomat. Diagn. (PiKAD), 2008, no. 3, pp. 24–26.
Kruglov, G.A., Obrabotka almaznymi reztsami detalei priborov (Machining of Device Parts Using Diamond Cutting Tools), Moscow: Mashinostroenie, 1968.
Novikov, N.V., Fizicheskie svoistva almaza: Spravochnik (Physical Properties of Diamond. Handbook), Kiev: Naukova Dumka, 1987.
Devin, L.N. and Rychev, S.V., An experimental study of the influence of tool material and fine turning conditions on the level of acoustic emission signals, J. Superhard Mater., 2016, vol. 38, no. 1, pp. 51–57.
Cook, N.H., Manufacturing Analysis, Addison-Wesley Publishing Company, Reading, Ma, 1986.
Rozenberg, Yu.A., Rezanie metallov (Metal Cutting), Kurgan: Zauralie, 2007.
Pan, C.S. and Dornfeld, D.A., Modeling the diamond-turning process with acoustic emission for monitoring applications, in Proc. 14th NAMRC, University of Minnesota, Minneapolis, 1986, pp. 257–265.
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Original Russian Text © L.N. Devin, S.V. Rychev, 2017, published in Sverkhtverdye Materialy, 2017, Vol. 39, No. 1, pp. 56–65.
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Devin, L.N., Rychev, S.V. The correlation model of acoustic emission in fine diamond turning. J. Superhard Mater. 39, 41–48 (2017). https://doi.org/10.3103/S1063457617010051
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DOI: https://doi.org/10.3103/S1063457617010051