Manufacturing Technology 2014, 14(2):149-153 | DOI: 10.21062/ujep/x.2014/a/1213-2489/MT/14/2/149

Method for Determining the Tribological Properties of the Cutting Fluid

Andrey Dugin, Jaroslav Votocek, Alexey Popov
Department of Machining and Assembly, Faculty of Mechanical Engineering, Technical University of Liberec. 461 17, Studentská 1402/2, Liberec 1, Czech Republic

Application of cutting fluids is one of the most widely accepted methods of increasing not only the efficiency of machining but also the quality management of the working surface that is used in industry. The cutting fluid market is large enough, and different manufacturers produce their own cutting fluids in several product lines which differ as to their chemical composition and their properties. When creating a cutting fluid, the manufacturer is particularly interested in the study of its individual properties as well as studying the effect of various chemical components on the final properties of the cutting fluid. Different methods are used to study various properties of cutting fluids. This article presents the method for the study of the tribological properties of cutting fluids. This method has been applied while comparing 5 different cutting fluids.

Keywords: Machining, Cuttingfluid, Orthogonalcutting

Published: June 1, 2014  Show citation

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Dugin A, Votocek J, Popov A. Method for Determining the Tribological Properties of the Cutting Fluid. Manufacturing Technology. 2014;14(2):149-153. doi: 10.21062/ujep/x.2014/a/1213-2489/MT/14/2/149.
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    References

    1. VENGUDUSAMY, B., GRAFL, A., NOVOTNY-FARKAS, F., SCHÖFMANN, W., (2013), Comparison of frictional properties of gear oils in boundary and mixed lubricated rolling-sliding and pure sliding contacts, Tribology International, 62, pp. 100-109 Go to original source...
    2. ADHVARYU, A., ERHAN, S. Z., PEREZ J.M., (2004), Tribological studies of thermally and chemically modified vegetable oils for use as environmentally friendly lubricants, Wear, 257(3-4), pp. 359-367 Go to original source...
    3. DENG, J., SONG, W., ZHANG, H., YAN, P., LIU, A., (2011), Friction and wear behaviors of the carbide tools embedded with solid lubricants in sliding wear tests and in dry cutting processes, Wear, 270(9-10), pp. 666 - 674 Go to original source...
    4. PERSSON, K., GÅHLIN, R., (2003), Tribological performance of a DLC coating in combination with water-based lubricants, Tribology International, 36(11), pp. 851-855 Go to original source...
    5. NOVAK, M., DOLEZAL, R., (2012), G-Ratio in hardened steel grinding with different coolants, Manufacturing Technology, 12(13), pp. 192 - 197. Go to original source...
    6. DE CHIFFRE, L., BELLUCO, W., (2000), Comparison of Methods for Cutting Fluid Performance Testing, CIRP Annals, 49(1):57-60 Go to original source...
    7. POPOV, A., DUGIN, A., (2013), Study of reasons of increased active force using coolant with uncut chip thickness, The International Journal of Advanced Manufacturing Technology, October, pp.1-8.
    8. KHAN, M., M., A., MITHU, M., A., H., DHAR, (2009), Effects of minimum quantity lubrication on turning AISI 9310 alloy steel using vegetable oil-based cutting fluid, Journal of Materials Processing Technology, 209(15-16), pp. 5573-5583 Go to original source...
    9. POPOV, A., DUGIN, A., (2013), A comparison of experimental estimation methods of the ploughing force in orthogonal cutting, International Journal of Machine Tools and Manufacture, 65, pp.37-40 Go to original source...
    10. DUGIN, A., POPOV, A., (2013), Increasing the accuracy of the effect of processing materials and cutting tool wear on the ploughing force values, Manufacturing Technology, 13(2), pp. 169 - 173. Go to original source...
    11. POPOV A, DUGIN A, (2013), Influence of Lubricant and Coolant Fluid on the Cutting Force in Small-Increment Planing, Russian Engineering Research, 33(2), pp. 84-85 Go to original source...
    12. MRKVICA, I., NESLU©AN, M., KONDERLA, R., JURKO, J., PANDA, A., (2012), Cutting forces by turning of Inconel 718 with inserts from different materials, Manufacturing Technology, 12(13), pp. 499 - 504 Go to original source...
    13. JÓZWIK, J., KURIC, I., SÁGA, M., LONKWIC, P., (2014), Diagnostics of CNC machine tools in manufacturing process with laser interferometer technology, Manufacturing Technology, 14(1), pp.23 - 30 Go to original source...
    14. NAVES, V.T.G., DA SILVA, M.B., DA SILVA, F.J., (2013), Evaluation of the effect of application of cutting fluid at high pressure on tool wear during turning operation of AISI 316 austenitic stainless steel, Wear, 302(1-2), pp. 1201-1208 Go to original source...
    15. DUGIN, A., POPOV, A., (2012), Effect of the processing materials on the ploughing force values, Manufacturing Technology, 12(13), pp. 169-173 Go to original source...
    16. POPOV, A., DUGIN, A., (2012), Experimental Methods of Determining the Cutting Forces at the Tool's Rear Surface, Russian Engineering Research, 32(1), pp. 68-69 Go to original source...

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