Trends in Mechanical Engineering & Technology

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The current study recognizes the features of surfactants that are not ionic to create vegetable oils-based cutting liquid, which is palm oil used in an emulsion as an unconventional lubricant. In the industrial sector, finish on surfaces is a key determinant of quality, which makes it one of the most crucial factors to consider. This study examined the impact of various parameters associated with machining on the roughness of the surface using vegetable oil-based cutting fluid (VBCF) and palm oil as an oil-based lubricant. Spindle speed and feed rate were the cutting parameters used, and the depth of cut was maintained constant. The study's workpiece material was EN8 steel. In addition, surface roughness was further analyzed and optimized To determine the way various parameters for cutting affect the roughness of the surface, use the Taguchi method. The findings indicate that the surface roughness of EN8 steel specimens is influenced by every one of the affected factors, with the feed rate having the greatest impact.

EN8 steel, surface roughness, Taguchi method, VBCF

Chockalingam P. and Wee L. H., 2012. Surface Roughness and Tool Wear Study Of Milling of AISI 304 Stainless Steel Using Different Cooling Conditions. International Journal of Engineering and Technology. 2(8): 1386-1391

Davim J. P., Gaitonde V. N. and Karnik S. R., 2008. Investigations into the effect of cutting conditions on surface roughness in turning of free machining steel by ANN models. Journal of Materials Processing Technology. 205: 16-23

Elmunafi, M.H.S., Kurniawan, D. and Noordin, M.Y., 2015. Use of Castor Oil as Cutting Fluid in Machining of Hardened StainlessSteel with Minimum Quantity of Lubricant. 12th Global Conference on Sustainable Manufacturing.Procedia CIRP. 26: 408-411

Gunerkar, R.S. and Kuppan, p., 2013. Experimental investigation of Vegetable Oil Based Cutting Fluid during turning of ss316l. International Journal on Mechanical Engineering and Robotics.1: 2321-5747

Lawal, S.A., Choudhary, I.A. and Nukman, y., 2013. Evaluation of vegetable and mineral oil-in –water emulsion cutting fluids in turning AISI 4340 steel with coated carbide tools. Journal of Cleaner Production. xxx: 1-9

Makadia A. J. and Nanavati J. I., 2013. Optimisation of machining parameters for turning operations based on response surface methodology. Measurement. 46:1521-1529

Nalbant M., Gokkaya H. and Sur G., 2007. Application of Taguchi method in the optimization of cutting parameters for surface roughness in turning. Materialsand Design. 28:1379-1385

Ozcelik, B., kuram, E., Cetin, M.H. and Demirbas, E., 2011. Experiment investigation of vegetable based cutting fluids with extreme pressure during turning of AISI 304L. Tribology International. 44:1864-1871

Revankar G. D., Shetty R., Rao S. S. and Gaitonde V. N., 2013. Response Surface Model for Surface Roughness during Finish Turning of Titanium Alloy under Minimum Quantity Lubrication. International Conference on Emerging Trends in Engineering and Technology (ICETET). 78-84

Sodavadia KP, Makwana AH. Experimental investigation on the performance of coconut oil based nano fluid as lubricants during turning of AISI 304 austenitic stainless steel. Int. J. Adv. Mech. Eng. 2014;4(1):55-60.