REFERENCES
- Zhou, C., Shan, L., Hight, J. R., Danyluk, S., Ng, S. H., and Paszkowski, A. J. (2002), “Influence of Colloidal Abrasive Size on Material Removal Rate and Surface Finish in SiO2 Chemical Mechanical Polishing,” Tribology Transactions, 45(2), pp 232–238.
- Jourani, A., Dursapt, M., Hamdi, H., Rech, J., and Zahouani, H. (2005), “Effect of the Belt Grinding on the Surface Texture: Modelling of the Contact and Abrasive Wear,” Wear, 259(7–12), pp 1137–1143.
- Mezghani, S., Sura, E., and El Mansori, M. (2008), “The Effect of Belt Finishing Process Variables on the Topography of Finished Surfaces,” Tribology Transactions, 51(4), pp 413–421.
- Khellouki, A., Rech, J., and Zahouani, H. (2013), “Energetic Analysis of Cutting Mechanisms in Belt Finishing of Hard Materials,” Proceedings of the Institution of Mechanical Engineers - Part B: Journal of Engineering Manufacture, 227(9), pp 1409–1413.
- Zanatta, A. M., Bressan, J. D., de Oliveira Gomes, J., Origo, F. D., and Damião, A. J. (2013), “Surface Finish Assessment of Polishing Process of Tool Steels by Abrasion, Using Diamond and Alumina Particles,” Advanced Materials, 716, pp 423–429.
- Rabinowicz, E., Dunn, L. A., and Russell, P. G. (1961), “A Study of Abrasive Wear under Three-Body Conditions,” Wear, 4, pp 345–355.
- Goddard, J. and Wilman, H. (1962), “A Theory of Friction and Wear during the Abrasion of Metals,” Wear, 5, pp 114–135.
- Rabinowicz, E. and Mutis, A. (1964), “Effect of Abrasive Particle Size on Wear,” Wear, 8, pp 381–390.
- Misra, A. and Finnie, I. (1981), “On the Size Effect in Abrasive and Erosive Wear,” Wear, 65(3), pp 359–373.
- Gahlin, R. and Jacobson, S. (1999), “The Particle Size Effect in Abrasion Studied by Controlled Abrasive Surfaces,” Wear, 224, pp 118–125.
- McElwain, S. E., Blanchet, T. A., Schadler, L. S., and Sawyer, W. G. (2008), “Effect of Particle Size on the Wear Resistance of Alumina-Filled PTFE Micro- and Nanocomposites,” Tribology Transactions, 51(3), pp 247–253.
- Chin, C. W. and Yousif, F. (2010), “Influence of Particle Size, Applied Load, and Fibre Orientation on 3B-A Wear and Frictional Behaviour of Epoxy Composite Based on Kenaf Fibres,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 224(5), pp 481–489.
- Thakare, M. R., Wharton, J. A., Wood, R. J. K., and Menger, C. (2012), “Effect of Abrasive Particle Size and the Influence of Microstructure on the Wear Mechanisms in Wear-Resistant Materials,” Wear, 276–277, pp 16–28.
- Wahlström, J., Olander, L., and Olofsson, U. (2012), “A Pin-on-Disc Study Focusing on How Different Load Levels Affect the Concentration and Size Distribution of Airborne Wear Particles from the Disc Brake Materials,” Tribology Letters, 46, pp 195–204.
- Saravanan, S. D., Senthilkumar, M., and Shankar, S. (2013), “Effect of Particle Size on Tribological Behavior of Rice Husk Ash–Reinforced Aluminum Alloy (AlSi10Mg) Matrix Composites,” Tribology Transactions, 56(6), pp 1156–1167.
- Reeves, C. J., Menezes, P. L., Lovell, M. R., and Jen, T. C. (2013), “The Size Effect of Boron Nitride Particles on the Tribological Performance of Biolubricants for Energy Conservation and Sustainability,” Tribology Letters, 51(3), pp 437–452.
- Chauhan, S. R. and Thakur, S. (2013), “Effects of Particle Size, Particle Loading and Sliding Distance on the Friction and Wear Properties of Cenosphere Particulate Filled Vinylester Composites,” Materials & Design, 51, pp 398–408.
- Lim, S. C. (1998), “Recent Developments in Wear Mechanism Maps,” Tribology International, 31, pp 87–97.
- Ben Tkaya, M., Zidi, M., Mezlini, S., Zahouani, H., and Kapsa, P. (2008), “Influence of The Attack Angle on the Scratch Testing of an Aluminium Alloy by Cones: Experimental and Numerical Studies,” Materials & Design, 29(1), pp 98–104.
- Jourani, A., Bigerelle, M., Petit, L., and Zahouani, H. (2010), “Local Coefficient of Friction, Sub-Surface Stresses and Temperature Distribution during Sliding Contact,” International Journal of Materials and Product Technology, 38, pp 44–56.
- Jourani, A., Hagège, B., Bouvier, S., Bigerelle, M., and Zahouani, H. (2013), “Influence of Abrasive Grain Geometry on Friction Coefficient and Wear Rate in Belt Finishing,” Tribology International, 59, pp 30–37.
- Hokkirigawa, K. and Kato, K. (1988), “An Experimental and Theoretical Investigation of Ploughing, Cutting and Wedge Formation during Abrasive Wear,” Tribology International, 21, pp 51–57.
- Hokkirigawa, K., and Kato, K., and Li, Z. (1988), “The Effect of Hardness on the Transition of the Abrasive Wear Mechanism of Steels,” Wear, 123, pp 241–251.
- Coronado, J. J. and Sinatora, A. (2011), “Effect of Abrasive Size on Wear of Metallic Materials and Its Relationship with Microships Morphology and Wear Micromechanisms: Part 2,” Wear, 271, pp 1804–1812.
- Avient, B. W. E., Goddard, J., and Wilman, H. (1960), “An Experimental Study of Friction and Wear during Abrasion Metals,” Proceedings of the Royal Society Part A, 258, pp 159–180.
- Goddard, J. and Wilman, H. (1962), “A Theory of Friction and Wear during the Abrasion of Metals,” Wear, 5, pp 114–135.
- De Pellegrin, D. V., Torrance, A. A., and Haran, E. (2009), “Wear Mechanisms and Scale Effects in Two-Body Abrasion,” Wear, 266(1–2), pp 13–20.
- Dube, N. R. and Hutchings, I. M. (1999), “Influence of Particle Fracture in the High-Stress and Low-Stress Abrasive Wear of Steel,” Wear, 233, pp 246–256.
- Sin, H., Saka, N., and Suh, N. P. (1979), “Abrasive Wear Mechanisms and the Grit Size Effect,” Wear, 55, pp 163–190.
- Mezlini, S., Zidi, M., Arfa, H., Ben Tkaya, M., and Kapsa, P. (2005), “Experimental, Numerical and Analytical Studies of Abrasive Wear: Correlation between Wear Mechanisms and Friction Coefficient,” Comptes Rendus Mécanique, 333, pp 830–837.
- Ling, F. F. (1989), “The Possible Role of Fractal Geometry in Tribology,” Tribology Transactions, 32(4), pp 497–505.
- Majumdar, A. and Bhushan, B. (1990), “Role of Fractal Geometry in Roughness Characterization and Contact Mechanics of Surfaces,” Journal of Tribology, 112(2), pp 205–216.
- Lopez, J., Hansali, G., Zahouani, H., Lebosse, J. C., and Mathia, T. (1995), “3D Fractal-Based Characterisation for Engineered Surface Topography,” International Journal of Machine Tools and Manufacture, 35, pp 211–217.
- Kogut, L. and Jackson, R. L. (2005), “A Comparison of Contact Modeling Utilizing Statistical and Fractal Approaches,” Journal of Tribology, 128(1), pp 213–217.
- Jackson, R. L. (2010), “An Analytical Solution to an Archard-Type Fractal Rough Surface Contact Model,” Tribology Transactions, 53(4), pp 543–553.
- Bigerelle, M., Hagege, B., and El Mansori, M. (2008), “Modelling of Micro-Scale Abrasion in Superfinish Belt Grinding,” Tribology International, 41, pp 992–1001.
- Li, B. (2013), “On the Use of Fractal Methods for the Tool Flank Wear Characterization,” International Journal of Refractory Metals and Hard Materials, 42, pp 221–227.
- Stemp, W. J. (2013), “A Review of Quantification of Lithic Use—Wear Using Laser Profilometry: A Method Based on Metrology and Fractal Analysis,” Journal of Archaeological Science, 48(1), pp 15–25.
- Stout, K. J., Sullivan, P. J., Dong, W. P., Mainsah, E., Luo, N., Mathia, T. G., and Zahouani, H. (1993), The Development of Methods for the Characterisation of Roughness in Three Dimensions, Commission of the European Communities: Brussels-Luxembourg.
- Voss, R. F. (1985), “Random Fractal Forgeries,” in Fundamental Algorithms for Computer Graphics, Earnshaw, R. A. (Ed.), Springer-Verlag: Berlin, pp 805–835.
- Peitgen, H. O. and Saupe, D. (1988), The Science of Fractal Images, Springer-Verlag: New York.
- Persson, B., Albohr, O., Tartaglino, U., Volokitin, A., and Tosatti, E. (2005), “On the Nature of Surface Roughness with Application to Contact Mechanics, Sealing, Rubber Friction and Adhesion,” Journal of Physics: Condensed Matter, 17(1), pp 1–62.
- Jourani, A. (2015), “Effect of Roughness Geometries in Contact Mechanics,” International Journal of Materials and Product Technology.
- Mezghani, S., Jourani, A., and Zahouani, H. (2006), “The Scale Effect of Roughness in Contact Problems,” WIT Transactions on the Built Environment, 85, pp 369–378.
- Jourani, A. (2015), “New 3D Numerical Model of Rough Contact: Influence of Mode of Surface Deformation on Real Area of Contact and Pressure Distribution,” ASME Journal of Tribology, 137(1), 011401.
- Jourani, A. (2015), “Three Dimensional Modeling of Temperature Distribution during Belt Finishing,” International Journal of Surface Science and Engineering, in press.
- Petit, L., Bigerelle, M., Jourani, A., Dore, E., Prelle, C., and Lamarque, F. (2010), “Presentation of a New Method to Measure the Friction Coefficient Using an Electromagnetic Digital Device,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 224, pp 1019–1026.