References
- Nagata, Y., Kalogiannis, K., and Glovnea, R. (2012), “Track Replenishment by Lateral Vibrations in Grease-Lubricated EHD Contacts,” Tribology Transactions, 53, pp 91–98.
- Abdo, J. (2005), “Experimental Technique to Study Tangential to Normal Contact Load Ratio,” Tribology Transactions, 48, pp 389–403.
- Goto, H. (1997), “Influence of Mechanical and Chemical Factors on Transition between Severe and Mild Wear in Saline Solution,” Journal Tribology, 119, pp 619–625.
- Syahrullail, S., Nakanishi, K., and Kamitani, S. (2005), “Lubrication Performance of Double Fraction Palm Olein Using Pin-on-Disk Tribotester,” Journal of the Japanise Society of Tribologists, 50, pp 877–885.
- Syahrullail, S., Zubil, B. M., Azwadi, C. S. N., and Ridzuan, M. J. M. (2011), “Experimental Evaluation of Palm Oil as Lubricant in Cold Forward Extrusion Process,” International Journal Mechanical Science, 53, pp 549–555.
- Rakic, R. (1999), “The Influence of Tribological Properties of Lubricating Oils on the Reliability of Gears,” Industrial Lubrication and Tribology, 51, pp 170–179.
- Maleque, M., Masjuki, H., and Sapuan, S. (2003), “Vegetable-Based Biodegradable Lubricating Oil Additives,” Industrial Lubrication and Tribology, 55, pp 137–143.
- Siniawski, M. T., Saniei, N., Adhikari, B., and Doezema, L. A. (2007), “Influence of Fatty Acid on the Tribological Performance of Two Vegetable-Based Lubricants,” Journal of Synthetic Lubrication, 24, pp 101–110.
- Shashidhara, Y. M. and Jayaram, S. R. (2010), “Vegetable Oils as a Potential Cutting Fluid—An Evolution,” Tribology International, 43, pp 1073–1081.
- Lathi, P. and Mattiasson, M. (2007), “Green Approach for the Preparation of Biodegradable Lubricant Base Stock from Epoxidized Vegetable Oil,” Applied Catalysis B, 9, pp 207–212.
- Jayadas, N. and Nair, K. (2006), “Coconut Oil as Base Oil for Industrial Lubricants—Evaluation and Modification of Thermal, Oxidative and Low Temperature Properties,” Tribology International, 39, pp 873–878.
- Rudnick, L. R. (2006), “Synthetics, Mineral Oils, and Bio-Based Lubricants: Chemistry and Technology,” Natural Oils as Lubricants, Rudnick, L. R. and Erhan, S. Z. (Eds.), pp. 353–360, CRC/Taylor & Francis Group: New York.
- Lazzeri, L., Mazzoncini, M., Rossi, A., Balducci, E., Bartolini, G., Giovannelli, L., Pedriali, R., Petroselli, R., Patalano, G., Agnoletti, G., Borgioli, A., Croce, B., and D'Avino, L. (2006), “Biolubricants for the Textile and Tannery Industries as an Alternative to Conventional Mineral Oils: An Application Experience in the Tuscany Province,” Industrial Crops and Products, 24, pp 280–291.
- Adhvaryu, A. and Erhan, S. Z. (2006),“Tribological Studies of Thermally and Chemically Modified Vegetable Oils for Use as Environmentally Friendly Lubricants,” Wear, 257, pp 359–367.
- Biresaw, G. (2006), “Elastohydrodynamic Properties of Seed Oils,” Journal of the American Oil Chemists' Society, 83, pp 559–566.
- Fox, N. J. and Stachowiak, G. W. (2007), “Vegetable Oil–Based Lubricants—A Review of Oxidation,” Tribology International, 40, pp 1035–1046.
- Biresaw, G. and Bantchev, G. (2008), “Effect of Chemical Structure on Film-Forming Properties of Seed Oils,” Journal of Synthetic Lubrication, 25, pp 159–183.
- Maria Pacheco Santos, L. (2005), “Nutritional and Ecological Aspects of Buriti or Aguaje (Mauritia flexuosa Linnaeus filius): A Carotene-Rich Palm Fruit from Latin America,” Ecology of Food and Nutrition, 44(5), pp 345358.
- Rahim, E. A. and Sasahara, H. (2011), “An Analysis of Surface Integrity When Drilling Inconel 718 Using Palm Oil and Synthetic Ester under MQL Condition,” Machining Science and Technology, 15(1), pp 76–90.
- Syahrullail, S., Kamitani, S., and Nakanishi, K. (2012), “Experimental Evaluation of Refined, Bleached, and Deodorized Palm Olein and Palm Stearin in Cold Extrusion of Aluminum A1050,” Tribology Transactions, 55(2), pp 199–209.
- Tan, K. T., Lee, K. T., and Mohamed, A. R. (2011), “Potential of Waste Palm Cooking Oil for Catalyst-Free Biodiesel Production,” Energy, 36(4), pp 2085–2088.
- Masjuki, H. H. and Maleque, M. A. (2000), “Palm Oil and Mineral Oil Based Lubricants—Their Tribological and Emission Performance,” Tribology International, 32(1999), pp 305–314.
- Masjuki, M. M., Maleque, M. A., Kubo, A., and Nonaka, T. (2000), “Palm Oil and Mineral Oil Based Lubricants—Their Tribological and Emission Performance,” Tribology International, 32, pp 305–314.
- Sharma, B. K., Doll, K. M., and Erhan, S. Z. (1999), “Ester Hydroxyl Derivatives of Methyl Oleated Tribological, Oxidation and Low Temperature Properties,” Bioresources Technology, 99, pp 7333–7340.
- Kalin, M., Jahanmir, S., and Ives, L. K. (2002), “Effect of Counterface Roughness on Abrasive Wear of Hydroxyapatite,” Wear, 252(9–10), pp 679–685.
- Dulias, U., Fang, L., and Zum Gahr, K.-H. (2002), “Effect of Surface Roughness of Self-Mated Alumina on Friction and Wear in Isooctane-Lubricated Reciprocating Sliding Contact,” Wear, 252(3–4), pp 351–358.
- Masjuki, M. M., Maleque, M. A., Kubo, A., and Nonaka, T. (1999), “Palm Oil and Mineral Oil Based Lubricants—Their Tribological and Emission Performance,” Tribology International, 32, pp 305–314.
- Shahabuddin, M., Masjuki, H. H., Kalam, M. A., Bhuiya, M. M. K., and Mehat, H. (2013), “Comparative Tribological Investigation of Bio-Lubricant Formulated from a Nonedible Oil Source (Jatropha Oil),” Industrial Crops and Products, 47, pp 323–330.