REFERENCES
- Roy, G., Nguyen, C.T., and Lajoie, P. (2004), “Numerical Investigation of Laminar Flow and Heat Transfer in a Radial Flow Cooling System with the Use of Nanofluids,” Superlattices and Microstructures, 35(3–6), pp 497–511.
- Zhang, J.X., Liu, K., and Hu, X.G. (2002), “Effect of Ultra-Dispersed Diamond Nanoparticles as Additive on the Tribological Properties of 15W/30 Engine Oil,” Tribology, 22(1), pp 44–48.
- Kamman, D. and Komarov, V. (2000), “Use of Core-and-Shell and Core Ultradispersed Diamond (Nanodiamond) for Stretching, Polishing and Lubricating,” Proceedings of INTERTECH 2000, Vancouver, Canada, July.
- Zhu, Y.W., Shen, X.Q., Wang, B.C., and Xu, X.Y. (2003), “Study on the Dispersion of Nanodiamond Aggregates,” Key Engineering Materials, 238–239, pp 78–82.
- Senthilraja, S., Karthikeyan, M., and Gangadevi, R. (2010), “Nanofluid Applications in Future Automobiles: Comprehensive Review of Existing Data,” Nano-Micro Letters, 2(4), pp 306–310.
- Chen, S. and Liu, W. (2006), “Oleic Acid Capped PbS Nanoparticles: Synthesis, Characterization and Tribological Properties,” Materials Chemistry and Physics, 98(1), pp 183–189.
- Hisakado, T., Tsukizoe, T., and Yoshikawa, H. (1983), “Lubrication Mechanism of Solid Lubricants in Oils,” Journal of Lubrication Technology, 105, pp 245–252.
- Gara, L. and Zou, Q. (2012), “Friction and Wear Characteristics of Water-Based ZnO and Al2O3 Nanofluids,” Tribology Transactions, 55(3), pp 345–350.
- Jee, A. and Lee, M. (2009), “Surface Functionalization and Physicochemical Characterization of Diamond Nanoparticles,” Current Applied Physics, 9(2), pp 144–147.
- Harlow, G.E. and Davies, R.M. (2005). “Diamonds,” Elements, 1(2), pp 67–70.
- Zhu, Y., Xu, X., Wang, B., and Feng, Z. (2004), “Surface Modification and Dispersion of Nano-Diamond in Clean Oil,” China Particuology, 2(3), pp 132–134.
- Tao, X., Jiazheng, Z., and Kang, X. (1996), “The Ball-Bearing Effect of Diamond Nanoparticles as an Oil Additive,” Journal of Physics D: Applied Physics, 29(11), pp 2932–2937.
- Peng, D.X., Kang, Y., Hwang, R.M., Shyr, S.S., and Chang, Y.P. (2009), “Tribological Properties of Diamond and SiO2 Nanoparticles Added in Paraffin,” Tribology International, 42(6), pp 911–917.
- Gara, L. and Zou, Q. (2013), “Friction and Wear Characteristics of Oil-Based ZnO Nanofluids,” Tribology Transactions, 56(2), pp 236–244.
- Taurozzi, J.S., Hackley, V.A., and Wienser, M.R. (2010), “CEINT/NIST Protocol for Preparation of Nanoparticle Dispersions from Powdered Material Using Ultrasonic Disruption.” . Version 1, June 3, 2010.
- Chou, C.C. and Lee, S.H. (2008), “Rheological Behavior and Tribological Performance of a Nano-Diamond-Dispersed Lubricant,” Journal of Materials Processing Technology, 201(1–3), pp 542–547.
- Chou, C.C. and Lee, S.H. (2010), “Tribological Behavior of Nano-Diamond-Dispersed Lubricants on Carbon Steels and Aluminum Alloy,” Wear, 269(11–12), pp 757–762.
- Shen, M., Luo, J., and Wen, S. (2001), “The Tribological Properties of Oils Added with Diamond Nano-Particles,” Tribology Transactions, 44(3), pp 494–498.
- Luo, J., Qian, L., Wen, S., Wen, L., and Wen, S. (1999), “The Failure of Fluid Film at Nano-Scale,” Tribology Transactions, 42(4), pp 912–916.
- Lee, K., Hwang, Y., Cheong, S., Choi, Y., and Kwon, L., Jaekeun, L., and Kim, S. (2009), “Understanding the role of Nanoparticles in Nano-Oil Lubrication,” Tribology Letters, 35(2), pp 127–131.
- Hamrock, B.J. (1994), Fundamentals of Fluid Film Lubrication, McGraw-Hill: New York.