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Tribology Transactions Volume 58, 2015 - Issue 6
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Original Articles

Tribological Behavior of Particles and Fiber-Reinforced Hybrid Nanocomposites

Akash MohantyDepartment of Mechanical Engineering, Indian Institute of Technology, Banaras Hindu University, Varanasi221005, India;School of Mechanical and Building Sciences, VIT University, Vellore632014, India
&
V. K. SrivastavaDepartment of Mechanical Engineering, Indian Institute of Technology, Banaras Hindu University, Varanasi221005, India
Pages 1142-1150 | Received 10 Aug 2012, Accepted 06 Apr 2015, Published online: 01 Sep 2015

REFERENCES

  • Ajith Kumar, K. K., Pillai, U. T. S., Pai, B. C., and Chakraborty, M. (2013), “Dry Sliding Wear Behaviour of Mg-Si Alloys,” Wear, 303(1–2), pp 56–64.
  • Srivastava, V. K. and Wahne, S. (2007), “Wear and Friction Behaviour of Soft Particles Filled Random Direction Short GFRP Composites,” Materials Science and Engineering A, 458, pp 25–33.
  • Rubin, A., Gauthier, C., and Schirrer, R. (2013), “Analysis of the Effect of Nano Roughness on the Friction of a Vitreous Polymer,” Wear, 303, pp 40–48.
  • Jia, J. H., Zhou, H. D., Gao, S. Q., and Chen, J. M. (2003), “A Comparative Investigation of the Friction and Wear Behavior of Polyimide Composites under Dry Sliding and Water-Lubricated Condition,” Materials Science and Engineering A, 356, pp 48–53.
  • Adam, F., Hammer, D. S., Pfautsch, S., and Westermann, K. (2002), “Early Failure of a Press-Fit Carbon Fiber Hip Prosthesis with a Smooth Surface,” Journal of Arthroplasty, 17(2), pp 217–223.
  • Steinberg, E. L., Rath, E., Shlaifer, A., Chechik, O., Maman, E., and Salai, M. (2013), “Carbon Fiber Reinforced PEEK Optima—A Composite Material Biomechanical Properties and Wear/Debris Characteristics of CF-PEEK Composites for Orthopedic Trauma Implants,” Journal of the Mechanical Behavior of Biomedical Materials, 17, pp 221–228.
  • Lancaster, J. K. (1972), “Friction and Wear,” Polymer Science and Materials Science Handbook, Jenkins, A. D. (Ed.), North Holland Publishing Co., London, pp 959–1046.
  • Lancaster, J. K. (1990), “Material-Specific Wear Mechanisms: Relevance to Wear Modeling,” Wear, 141(1), pp 159–83.
  • Lancaster, J. K. (1975), “Transitions in the Friction and Wear of Carbons and Graphites Sliding against Themselves,” ASLE Transactions, 18, pp 187–201.
  • Amuzu, J. K. A., Briscoe, B. J., and Tabor, D. (1978), “Polymers as Bearing and Lubricants: Aspects of Fundamental Research,” Advances in Tribology, pp 59–62.
  • Bahadur, S. and Zheng, Y. (1990), “Mechanical and Tribological Behaviour of Polyester Reinforced with Short Glass Fibers,” Wear, 137, pp 251–266.
  • Tanaka, K. (1982), “Transfer of Semicrystalline Polymers Sliding against Smooth Steel Surface,” Wear, 27, pp 183–199.
  • Briscoe, B. J. (1981), “Wear of Polymers: An Essay on Fundamental Aspects,” Tribology International, 14, pp 231–243.
  • Chand, N. and Sharma, M. K. (2008), “Development and Sliding Wear Behaviour of Milled Carbon Fibre Reinforced Epoxy Gradient Composites,” Wear, 264, pp 69–74.
  • Chand, N., Dwivedi, U. K., and Sharma, M. K. (2007), “Development and Tribological Behaviour of UHMWPE Filled Epoxy Gradient Composites,” Wear, 262, pp 184–190.
  • Zhang, H. J., Zhang, Z. Z., and Guo, F. (2010), “A Study on the Sliding Wear of Hybrid PTFE/Kevlar Fabric/Phenolic Composites Filled with Nanoparticles of TiO2 and SiO2,” Tribology Transactions, 53(5), pp 678–683.
  • Kazt, H. S. and Mileski, J. V. (1987), Handbook of Fillers for Plastics, Van Nostrand Reinhold: New York.
  • Wang, Q. H., Xue, Q. J., and Shen, W. C. (1997), “The Friction and Wear Properties of Nanometre SiO2 Filled Polyetheretherketone,” Tribology International, 30, pp 193–197.
  • Xue, Q. and Wang, Q. (1997), “Wear Mechanisms of Polyetheretherketone Composites Filled with Various Kinds of SiC,” Wear, 213, pp 54–58.
  • Durand, J. M., Vardavoulias, M., and Jeandin, M. (1995), “Role of Reinforcing Ceramic Particles in the Wear Behavior of Polymer-Based Model Composites,” Wear, 181–183, pp 833–839.
  • Voss, H. and Friedrich, K. (1987), “On the Wear Behavior of Short-Fiber-Reinforced PEEK Composites,” Wear, 116, pp 1–18.
  • Friedrich, K., Karger-kocsis, J., and Lu, E. (1991), “Effect of Steel Counterface Roughness and Temperature on the Friction and Wear of PEEK Composites under Dry Sliding Conditions,” Wear, 148, pp 235–247.
  • Rong, M., Zhang, Z., Liu, M. Q., Hong, H., Wetzel, B., and Friedrich, K. (2001), “Microstructure and Tribological Behavior of Polymeric Nanocomposites,” Industrial Lubrication and Tribology, 53(2), pp 72–77.
  • Friedrich, K., Zhang, Z., and Schlarb, A. K. (2005), “Effects of Various Fillers on the Sliding Wear of Polymer Composites,” Composites Science and Technology, 65(15–16), pp 2329–2343.
  • Burris, D. L., Boesl, B., Bourne, G. R., and Sawyer, W. G. (2007), “Polymeric Nanocomposites for Tribological Applications,” Macromolecular Materials and Engineering, 292, pp 387–402.
  • Zhang, H. J., Zhang, Z. Z., Guo, F., Jiang, W., and Wang, K. (2009), “Friction and Wear of Hybrid PTFE/Kevlar Fabric Composite Filled with ZnO Nanoparticles Sliding against Steel, Copper, and Aluminum,” Tribology Transactions, 52(6), pp 833–840.
  • Dayma, N., Satapathy, B. K., and Patnaik, A. (2011), “Structural Correlations to Sliding Wear Performance of PA-6/PP-g-MA/Nanoclay Ternary Nano-Composites,” Wear, 271, pp 827–836.
  • Peng, Q. Yi., Cong, P. H., Liu, X. J., Liu, T. X., Huang, S., and Li, T. S. (2009), “The Preparation of PVDF/Clay Nanocomposites and the Investigation of Their Tribological Properties,” Wear, 266(7–8), pp 713–720.
  • Zhang, H., Tang, L. C., Zhang, Z., Friedrich, K., and Sprenger, S. (2008), “Fracture Behaviours of in Situ Silica Nanoparticle-Filled Epoxy at Different Temperatures,” Polymer, 49, pp 3816–3825.
  • Korshak, V. V., Gribova, I. A., Krasnov, A. P., and Aderikha, V. N. (1983), “Tribochemical Processes and Wear Resistance of Polymeric Materials,” ASLE Transactions, 26(3), pp 401–404.
  • Larsen, T., Andersen, T. L., Thorning, B., Horsewell, A., and Vigild, M. E. (2008), “Changes in the Tribological Behavior of an Epoxy Resin by Incorporating CuO Nano Particles and PTFE Microparticles,” Wear, 265, pp 203–213.
  • Schön, J. (2004), “Coefficient of Friction and Wear of a Carbon Fiber Epoxy Matrix Composite,” Wear, 257, pp 395–407.
  • Larsen, T., Andersen, T. L., Thorning, B., Horsewell, A., and Vigild, M. E. (2007), “Comparison of Friction and Wear for an Epoxy Resin Reinforced by a Glass or a Carbon/Aramid Hybrid Weave,” Wear, 262, pp 1013–1020.
  • Lin, J. C. (2007), “Compression and Wear Behavior of Composites Filled with Various Nanoparticles,” Composites Part B, 38, pp 79–85.
  • Luo, H. R., Qu, X. J., Ding, H., and Xu, S. (2003), “Effect of Heat Treatment on the Tribological Behavior of 2D Carbon/Carbon Composites,” Carbon, 41, pp 2693–2701.
  • Mohanty, A. and Srivastava, V. K. (2013), “Dielectric Breakdown Performance of Alumina/Epoxy Resin Nanocomposites under High Voltage Application,” Materials & Design, 47, pp 711–716.
  • Mohanty, A. and Srivastava, V. K. (2015), “Effect of Alumina Nanoparticles on the Enhancement of Impact and Flexural Properties of the Short Glass/Carbon Fiber Reinforced Epoxy Based Composites,” Fibers and Polymers, 16(1), pp 188–195.
  • Shukla, S. K., Quraishi, M. A., and Prakash, R. (2008), “A Self Doped Conducting Polymer ‘Polyanthranilic Acid’: An Efficient Corrosion Inhibitor for Mild Steel in Acidic Solution,” Corrosion Science, 50, pp 2867–2872.
  • Gupta, B., Chauhan, D. S., and Prakash, R. (2010), “Controlled Morphology of Conducting Polymers: Formation of Nanorods and Microspheres of Polyindole,” Materials Chemistry and Physics, 120, pp 625–630.
  • Bowen, W. R., Hilal, N., Lovitt, R. W., and Williams, P. M. (1996), “Visualization of an Ultrafiltration Membrane by Non-Contact Atomic Force Microscopy at Single Pore Resolution,” Journal of Membrane Science, 110(2), pp 229–232.
  • Bowen, W. R., Hilal, N., Lovitt, R. W., and Williams, P. M. (1996), “Atomic Force Microscope Studies of Membranes: Surface Pore Structures of Cyclopore and Anopore Membranes,” Journal of Membrane Science, 110(2), pp 233–238.
  • Gao, S. L. and Mäder, E. (2002), “Characterization of Interphase Nanoscale Property Variations in Glass Fibre Reinforced Polypropylene and Epoxy Resin Composites,” Composites Part A: Applied Science and Manufacturing, 33(4), pp 559–576.
  • Bowen, W. R. and Hall, N. J. (1995), “Properties of Microfiltration Membranes: Mechanisms of Flux Loss in the Recovery of an Enzyme,” Biotechnology and Bioengineering, 46(1), pp 28–35.
  • Hibare, S., Sivanathan, R., and Nadakatti, S. (2011), “Behaviour of Soft Granules under Compression: Effect of Reactive and Non-Reactive Nature of the Binder on Granule Properties,” Powder Technology, 210(3), pp 241–247.
  • Denny, P. J. (2002), “Compaction Equations: A Comparison of the Heckel and Kawakita Equations,” Powder Technology, 127(2), pp 162–172.
  • D99-05 (2010), “Standard Test Method for Wear Testing with a Pin-on-Disk Apparatus,” ASTM International, West Conshohocken, PA, 19428-2959 USA.

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