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Lawal, Sunday Albert
- A Review of Application of Vegetable Oil-Based Cutting Fluids in Machining Non-Ferrous Metals
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1 Department of Mechanical Engineering, School of Engineering and Engineering Technology, Federal University of Technology, Minna, NG
1 Department of Mechanical Engineering, School of Engineering and Engineering Technology, Federal University of Technology, Minna, NG
Source
Indian Journal of Science and Technology, Vol 6, No 1 (2013), Pagination: 3951-3956Abstract
In the beginning, cutting fluids consisted of simple oils applied with brushes to cool and lubricate the machine tool. However, cutting fluid formulation became more complex as cutting operations became more severe. There are several types of cutting fluids nowadays and the most common can be categorized into cutting oils or water-miscible fluids. In this paper, attention is focused on recent research work on the application of vegetable oil-based cutting fluids in machining non-ferrous metals. The efficiency of various vegetable oil-based cutting fluids based on some process parameters such as thrust force, temperature developed at the tool chip interface and flank wear during machining of some non-ferrous metals using different tool materials were highlighted. The results obtained established vegetable oil-based cutting fluids as a good metalworking fluid.Keywords
Cutting Fluid, Vegetable Oils, Machining, PerformanceReferences
- Abdalla, H.S., Baines, W., McIntyre, G., Slade, C. Development of novel sustainable neat-oil metalworking fluids for stainless steel and titanium alloy machining. Part 1. Formulation development. Journal of Advanced Manufacture Technology 34 (2007) 21–33.
- Allawzi, M., Abu-Arabi, M.K., Al-zoubi, H.S., Tamimi, A., Physicochemical characteristics and thermal stability of Jordanian Jojoba oil, Journal of America Oil Chemical Society 1998;75(1):57- 62
- Arnsek A. and Vizintin, J., Lubricating properties of rapeseedbased oils. Journal Synthetic Lubrication, 16 (1999a), 281– 296.
- Arnsek A. and Vizintin, J., Scuffing Load Capacity of Rapeseed- Based Oils,” Lubrication Engineering, 54, 8, (1999b), 11-18.
- Arnsek A and Vizintin, J., Pitting Resistance of Rapeseed-- Based Oils,” Lubrication Engineering 57, 3, (2001) 17-21.
- Asadaukas, S., Perez J.M, Duda J.L, Oxidative stability and antiwear properties of high oeic vegetable oils, Journal of Lubrication Engineering 1996;52(12):877 -882.
- Asadauskas S., Perez, J.M., Duda, J.L., Lubrication properties of castor oil – potential basestock for biodegradable lubricants, Journal of Lubrication Engineering 1997 ;53 (12):35 -40.
- Belluco W and de Chiffre, L., Testing of Vegetable-Based Cutting Fluids by Hole Making Operations,” Journal of Lubrication Engineering, 2001: 57( 1),12- 16
- Bennett, E.O, Water based cutting fluids and human health. Tribology International, 1983; 45–60.
- Birova. A, Pavloviova .A, Cvengro J., Lubricating oils based on chemically modified vegetable oils. Journal of Synthetic Lubrication 2002(18):291.
- Bisio,A.L and Xanthos, M., How to manage plastics wastes, Technology and Market Opportunities, Hanser Publishers, NY, 1995.
- Busch, C. and Backe, W., “Development and investigation in biodegradable hydraulic fluids”, SAE Technical Paper 932450, SAE, Warrendale, PA. 1993
- Choi, U.S., Ahn, B.G., Kwon, O.K., Chant, Y.J., Tribological behavior of some anti-wear additives in vegetable oils. Tribology International, 1997, 37; 677 -683
- De Guzman d. Chemical Market Report 2002; 261 (23) 11
- Eichenberger, H.F., Biodegradable hydraulic lubricant – An overview of current developments in Central Europe. Paper No. 910062 (1991).
- El Baradie, M.A., Cutting fluids: part 1. Characterization, Journal of Material Processing Technology 56 (1996) 786 -797
- Flider, F.J., Use of rapeseed oil in lubricants, INFORM, 6,9 ; 1031 – 1035 ( 1995)
- Fox, N.J., Stachowiak, G.W., Vegetable oil based lubricants- A review of oxidation, Tribology International 40 (2007) 1035 – 1046
- Hohn, B.R., Michaelis, K., Dobereiner, R., Load carrying capacity properties of fast biodegradable gear lubricants. Lubrication Engineering 1999; 55(11):15 −38.
- HSE. Health risks from metalworking fluids—aspects of good machine design, IND (G) 167L. London: HSE Books; 1994.
- HSE. Health surveillance of occupational skin diseases. MS 24. London: HSE Books; 1991a
- HSE. Medical aspects of occupational asthma. MS 25. London: HSE Books; 1991b.
- HSE. Metalworking fluids (MWFs) exposure assessment, EH74/4. London: HSE Books; 2000
- Hutton H.W (1923), Process of producing water soluble oil, British Patent No. 13,999
- Kleinova, A., Fodran, P., Brncalova, L., Cvengros, J., Substituted esters of stearic acid as potential lubricants. Biomass Bioenergy. 2008; 32; 366-371
- Kline & Company, Inc. Competitive intelligence for the global lubricants industry, 2004–2014. Kline & Company, Inc., 2006.
- Korde, V.M, Phelps, T.J, Bienkowski, P.R, White, D.C, Biodegradation of chlorinated aliphatics and aromatic compounds in total- recycle expanded- bed reactors. Apply Biochemical Biotechnology, (1993), 45/46:731–40
- Kozma, M., Investigation into the Scuffing load capacity of environmentally friendly lubricating oils, Journal of Synthetic Lubrication 1997;14(3):249-258.
- Krahenbuhl, U., 2005. Vegetable oil-based coolants improve cutting performance, http://www.manufacturingcentre.com/ tooling/archives/1202/1202oil.asp.
- Krzan, B., Vizintin, J., Vegetable – based oil as a gear lubricant, Gear Technology, 2003b; 20(4); 28-33.
- Krzan B and Vizintin, J., Tribological properties of an environmentally adapted universal tractor transmission oil based on vegetable oil, Tribology International 36 (2003a) 827-833.
- Lathi, P.S and Mattiasson, B., Green approach for the preparation of biodegradable lubricant basestock from epoxidized vegetable oil. Applied Catal. Envrionment; 2007; 69; 207 – 212.
- Li, F., Hanson, M.V., Larrock, R.C., Soybean oildivinylbenzene thermosetting polymers, synthesis, structure, properties and their relationships, Polymer 42 (2001) 1567- 1579.
- Loredana. P, Cosmina. P, Geza. B, Gabriela. V, Remus N., Basestock oils for lubricants from mixtures of corn oil and synthetic diesters. Journal of America Oil Chemical Society 2008;85:71–6.
- Lou, A.T., An investigation of the use of soybean oil in hydraulic systems, Bioresources Technology 56 (1996) 41-47.
- Machado A.R. and Wallbank. J., The effect of extremely low lubricant volumes in machining. Wear 210: 76-82, 1997
- Matthew, T.S., Nader, S., Bigyan, A., Lambert, A.D., Influence of fatty acid composition on the Tribological performance of two vegetable-based lubricants. Journal of Synthetic Lubrication 2007;24:101–10
- McCoy JS (2006), Introduction: Tracing the historical development of metalworking fluids, in: Byers J.P, (ed), Metalworking fluids, 2nd ed. CRC publishers, pp 1- 5.
- Miller, M., Additives for bioderived and biodegradable lubricants,in: L.R Rudnick (Ed), Lubricant additives: chemistry and applications, 2nd ed. CRC press, Boca Raton, London, New York, 2008, pp 445 -454
- Norrby, T., Environmentally adopted lubricants—where are the opportunities?. Statoil Lubricants R & D, 2003.
- Odi-Owei, S., Tribological properties of some vegetable oils and fats, Journal of Lubrication Engineering 1988, 45, (11) 685-690
- Ojolo, S.J., Ohunakin, O.S., Study of rake face action on cutting using palm-kernel oil as lubricant, Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS) 2 (1): 30-35 © Scholarlink Research Institute Journals, 2011 (ISSN: 2141-7016), jeteas.scholarlinkresearch.org.
- Ojolo, S.J., Amuda, M.O.H., Ogunmola,O.Y., Ononiwu, C.U., Experimental determination of the effect of some straight biological oils on cutting force during cylindrical turning Revista Matéria, v. 13, n. 4, pp. 650 – 663, 2008 http://www.materia.coppe.ufrj.br/sarra/artigos/artigo11007
- Operating hydraulics in “Green” fluids, Machine Design, 73 -77, January 22, 1993
- Rahim E.A. and Sasahara, H., A study of the effect of palm oil as MQL lubricant on high speed drilling of titanium alloys, Tribology International, 44 (2011) 309 -317
- Rudnick, L.R., (2009), Lubricant Additives: Chemistry and Applications, 2nd Edn., CRC Press, Boca Raton. 47. Vegetable oil based tractor lubricant, Off – Highway Engineering, (December, 1994) pp 7 -10
- Vizintin, J and Arnsek, A., Ploj T. Lubricating properties of rapeseed oils compare to mineral oils under a high load oscillation, Journal of Synthetic Lubrication, 2000; 17 (3): 201- 217
- Wang Y. and Hadfield M., (2003), Tribology in Environmental Design. Professional Engineering Publishing Ltd., Suffolk, UK
- Zeman, A., Sprengel, A., Niedermeier, D., Spath. M., Biodegradable lubricants– studies on thermooxidation of metal–working fluids by differential scanning calorimetry (DSC).Thermochim Acta 1995; 268:9–15
- Zeng, X; Wu, H.; Yi, H; Ren T; Tribological behavior of three novel triazine derivatives in rapeseed oil. Wear, 2007; 262; 718 – 726