REFERENCES
- Learmonth, I. D., Young, C., and Rorabeck, C. (2007), “The Operation of the Century: Total Hip Replacement,” The Lancet, 370, pp 1508–1519.
- Dowson, D. and Jin, Z. M. (2006), “Metal-on-Metal Hip Joint Tribology,” The Journal of Engineering in Medicine, 220, pp 107–118.
- Mattei, L., Di Puccio, F., Piccigallo, B., and Ciulli, E. (2011), “Lubrication and Wear Modelling of Artificial Hip Joints: A Review,” Tribology International, 44, pp 532–549.
- Hodge, W. A., Fijan, R. S., Carlson, K. L., Burgess, R. G., Harris, W. H., and Mann, R. W. (1986), “Contact Pressures in the Human Hip Joint Measured in Vivo,” Proceedings of the National Academy of Sciences USA, 83, pp 2879–2883.
- Terrell, E. J. and Higgs, C. F., III. (2008), “A Particle-Augmented Mixed Lubrication Modeling Approach to Predicting Chemical Mechanical Polishing,” Journal of Tribology, 131(1), pp 12201-1–12201-10.
- Ito, H., Kaneda, K., Yuhta, T., Nishimura, I., Yasuda, K., and Matsuno, T. (2000), “Reduction of Polyethylene Wear by Concave Dimples on the Frictional Surface in Artificial Hip Joints,” Journal of Arthroplasty, 15(3), pp 332–338.
- Sheeja, D., Tay, B. K., Shi, X., Lau, S. P., Daniel, C., Krishnan, S. M., and Nung, L. (2001), “Mechanical and Tribological Characterization of Diamond-Like Carbon Coatings on Orthopedic Materials,” Diamond and Related Materials, 10(3), pp 1043–1048.
- Zhou, X., Galvin, A., Jin, Z. M., Yan, X., and Fisher, J. (2012), “The Influence of Concave Dimples on the Mettalic Counterface on the Wear of Ultra-High Molecular Weight Polyethylene,” Journal of Engineering Tribology, 226(6), pp 455–462.
- Dearnaley, G. and James, H. (2005), “Biomedical Applications of Diamond-like Carbon (DLC) Coatings: A Review,” Surface Coatings and Technology, 200(7), pp 2518–2524.
- Harris, W. H. (1995), “The Problem is Osteolysis,” Clinical Orthopedics and Related Research, 311, pp 46–53.
- Willert, H. G., Bertram, H., and Buchhorn, G. H. (1990), “Osteolysis in Alloarthroplasty of the Hip: the Role of Ultra High Molecular Weight Polyethylene Wear Particles,” Clinical Orthopedics and Related Research, 258, pp 95–107.
- Buford, A. and Goswami, T. (2004), “Review of Wear Mechanisms in Hip Implants: Paper I—General,” Materials & Design, 25, pp 385–393.
- Gispert, M. P., Serro, A. P., Colaco, R., and Saramago, B. (2006), “Friction and Wear Mechanisms in Hip Prosthesis: Comparison of Joint Materials Behavior in Several Lubricants,” Wear, 260, pp 149–158.
- Sawano, H., Warisawa, S., and Ishihara, S. (2009), “Study on Long Life of Artificial Joints by Investigating Optimal Sliding Surface Geometry for Improvement in Wear Resistance,” Precision Engineering, 33(4), pp 492–498.
- Fisher, J. and Dowson, D. (1991), “Tribology of Total Artificial Hip Joints,” Journal of Engineering in Medicine, 205(2), pp 73–79.
- Lloyd, A. I. G. and Noel, R. E. J. (1988), “The Effect of Counterface Surface Roughness on the Wear of UHMWPE in Water and Oil-in-Water Emulsions,” Tribology International, 21(2), pp 83–88.
- Okularczyk, W. (2007), “Experimental Investigations of Guide Rings Made of UHMWPE and PTFE Composites in Water Hydraulic Systems,” Archives of Civil and Mechanical Engineering, 7(4), pp 167–176.
- Zoo, Y. S., An, J. W., Lim, D. P., and Lim, D. S. (2004), “Effect of Carbon Nanotube Addition on the Tribological Behavior of UHMWPE,” Tribology Letters, 16(4), pp 305–309.
- Etsion, I. (2005), “State of the Art in Laser Surface Texturing,” Journal of Tribology, 127(1).
- Etsion, I., Kligerman, Y., and Halperin, G. (1999), “Analytical and Experimental Investigations of Laser-Textured Mechanical Seal Faces,” Tribology Transactions, 42(3), pp 511–516.
- Kovalchenko, A., Ajayi, O., Erdemir, A., Fenske, G., and Etsion, I. (2005), “The Effect of Laser Surface Texturing on Transitions in Lubrication Regimes during Unidirectional Sliding Contact,” Tribology International, 38(3), pp 219–225.
- Ronen, A., Etsion, I., and Kligerman, Y. (2001), “Friction-Reducing Surface Texturing in Reciprocating Automotive Components,” Tribology Transactions, 44(3), pp 359–366.
- Ryk, G., Kligerman, Y., and Etsion, I. (2002), “Experimental Investigation of Laser Surface Texturing for Reciprocating and Automotive Components,” Tribology Transactions, 45(4), pp 444–449.
- Borghi, A., Gualtieri, E., Marchetto, D., and Valeri, S. (2008), “Tribological Effects of Surface Texturing on Nitriding Steel for High-Performance Engine Applications,” Wear, 265(7), pp 1046–1051.
- Voevodin, A. A., Fitz, T. A., Hu, J. J., and Zabinski, J. S. (2002), “Nanocomposite Tribological Coatings with Chameleon Surface Adaptation,” Journal of Vacuum Science & Technology A, 20(4), pp 1434–1444.
- Voevodin, A. A. and Zabinski, J. S. (2006), “Laser Surface Texturing for Adaptive Solid Lubrication,” Wear, 261(11), pp 1285–1292.
- De Kraker, A., Van Ostayen, R. A., Van Beek, A., and Rixen, D. J. (2007), “A Multiscale Method for Modeling Surface Texture Effects,” Journal of Tribology, 129(2), pp 221–230.
- Salama, M. E. (1950), “The Effect of Macro-Roughness on the Performance of Parallel Thrust Bearings,” Proceedings of the Institution of Mechanical Engineers, 163(1), pp 149–161.
- Hamilton, D. B., Walowit, J. A., and Allen, C. M. (1966), “A Theory of Lubrication through Micro-Irregularities,” Journal of Fluids Engineering, 88(1), pp 177–185.
- Sahlin, F., Glavatskih, S. B., Almqvist, T., and Larsson, R. (2005), “Two-Dimensional CFD-Analysis of Micro-Patterned Surfaces in Hyrdodynamic Lubrication,” Journal of Tribology, 127, pp 96–102.
- Arghir, M., Roucou, N., Helene, M., and Frene, J. (2003), “Theoretical Analysis of the Incompressible Laminar Flow in a Macro-Roughness Cell,” Journal of Tribology, 125, pp 309–318.
- Filiz, S., Xie, L., Weiss, L. E., and Ozdoganlar, O. B. (2008), “Micromilling of Microbarbs for Medical Implants,” International Journal of Machine Tools and Manufacture, 48(3), pp 459–472.
- Wilson, M. E., Kota, N., Kim, Y., Wang, Y., Stolz, D. B., Leduc, P. R., and Ozdoganlar, O. B. (2011), “Fabrication of Circular Microfluidic Channels by Combining Mechanical Micromilling and Soft Lithography,” Lab on a Chip, 11(8), pp 1550–1555.
- Li, X., Wang, J., and Li, W. (2007), “Current State and Prospect of Micro-Machining,” Automation and Logistics, 2007 IEEE International Conference, Jinan, China, 18–21 August.
- Masuzawa, T. (2000), “State of the art of Micromachining,” CIRP Annals - Manufacturing Technology, 49(2), pp 473–488.
- Stokes, C. and Palmer, P. J. (2006), “3D Micro-Fabrication Processes: A Review,” MEMS Sensors and Actuators, Institution of Engineering Technology Seminar 2006, Loughborough University, UK.
- Sheeja, D., Tay, B. K., and Nung, L. (2005), “Tribological Characterization of Surface Modified UHMWPE against DLC-Coated Co-Cr-Mo,” Surface Coatings and Technology, 190(2), pp 231–237.
- Yan, Y. (2006), Corrosion and Tribo-Corrosion Behavior of Metallic Orthopedic Implant Materials, University of Leeds.
- Fisher, J., Dowson, D., Hamzdah, H., and Lee, H. L. (2003), “The Effect of Sliding Velocity on The Friction and Wear of UHMWPE for use in Total Artificial Hip Joints,” Wear, 175(1), pp 219–255.
- Myant, C. W. and Cann, P. (2013), “In Contact Observations of Model Synovial Fluid Lubricating Mechanisms,” Tribology International, 63, pp 97–104.
- Affatato, S., Spinelli, M., Zavalloni, M., Massega-Fabbro, C., and Viceconti, M. (2008), “Tribology and Total Hip Joint Replacement: Current Concepts in Mechanical Simulation,” Medical Engineering & Physics, 30(10), pp 1305–1317.
- Barret, T. S., Stachowiak, G. W., and Batchelor, A. W. (1992), “Effect of Roughness and Sliding Speed on the Wear and Friction of Ultra-High Molecular Weight Polyethylene,” Wear, 153, pp 331–350.