Study of Alternative Lubricants for Cold Extrusion Process of A1100 Pure Aluminum
DOI:
https://doi.org/10.11113/jt.v71.3734Keywords:
Extrusion, palm kernel, palm stearin, sliding velocity, effective strainAbstract
Lubrication in metal forming process is very important to control wear and friction at the interface between interacting surfaces. Non-renewable resources, such as mineral oil are widely used since a beginning due to its ability to act as a supplier to the wearing contact which functions as a film material or sustains chemical transformation to become a film material. Since it is will not last for a few more decades, renewable resources had been studied in order to find an alternative lubricant with presents similar results in terms of extrusion load and product quality. Two renewable lubricants were analyzed (Palm Kernel and Palm Stearin) together with additive free paraffinic mineral oil VG460 will act as a comparison lubricant. The experiment used a cold work plane strain extrusion apparatus consisting of a pair of taper die and a symmetrical work piece (billet). The billet material was annealed pure aluminum A1100 with radius of 5mm at the deformation area. It was found that palm Palm Kernel and Palm Stearin performed slightly high extrusion load, however they show no severe wear on product surface. Based on the results, it is proven that renewable based lubricants can be considered as a substitute to common mineral based lubricants used in the industry.
References
M. Gariety, G. Ngaile and T. Altan. 2007. Evaluation of new cold forging lubricants without zinc phosphate precoat. International Journal of Machine Tools & Manufacture. 47:673–681.
Malaysian Palm Oil Board (MPOB). 2014. http://bepi.mpob.gov.my. Retrieved on 14 April 2014.
W. Zhang. 2011. Intelligent Energy Field Manufacturing : Interdisciplinary Proces Innovations. Boca Raton, FL : CRC Press.
H. Zeng. 2013. Polymer Adhesion, Friction and Lubrication.John Wiley & Sons.
A.W. Batchelor, G.W. Stachowiak. 1995. Tribology in materials processing.Journal of Materials Processing Technology. 48 (1):503.
K.H. Jung, H.C. Lee, S.H. Kang, Y.T. Im. 2008. Effect of surface roughness on friction in cold forging. Journal of Achivements Material and Manufacturing Engineering. 13:327–334.
G. Ilija 2003. Palm Oil Usage In Lubricants.Presented in 3rd Global Oils and Fats Business Forum. USA. 1–19.
B.L. Abdulquadir and M.A. Adeyemi. 2008. Evaluations of vegetable oil-based as lubricants for metal forming processes. Industrial Lubrication and Tribology. 60(5):242–248.
S. Syahrullail, C.S.N. Azwadi, M.R. Abdul Kadir, N.E.A. Shafie. 2011. The effect of Tool Surface Roughness in Cold Work Extrusion. Journal of Applied Science. 11:367–372.
C. Caminaga, R.L.S. Issii, S.T. Button. 2006. Alternative lubrication and lubricants for the cold extrusion of steel parts. Journal of Material and Processing Technology. 179: 87–91.
S. Syahrullail, C.S.N. Azwadi, C.I. Tiong. 2011. The metal flow evaluation of billet extruded with RBD palm stearin.International Review of Mechanical Engineering. 5: 21–27.
L. Wang, J. Zhou., J. Duszczyk and L. Katgerman. 2012. Friction in aluminum extrusion- Part 1: A review of friction testing techniques for aluminum extrusion. Tribology International. 56: 89–98.
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