References
- Horve, L. (1996), Shaft Seals for Dynamic Applications, Marcel Dekker: New York.
- Flitney, R. K. (2011), Seals and Sealing Handbook, Elsevier: Oxford.
- Enomoto, Y. and Yamamoto, T. (1998), “New Materials in Automotive Tribology,” Tribology Letters, 5, pp 13–24.
- Tung, S. C. and McMillan, M. L. (2004), “Automotive Tribology Overview of Current Advances and Challenges for the Future,” Tribology International, 37, pp 517–536.
- Bloch, H. P. and Hoefner, J. J. (1996), Reciprocating Compressors:: Operation and Maintenance, Gulf Publishing Company: Houston.
- Raparelli, T., Bertetto, A. M., and Mazza, L. (1997), “Experimental and Numerical Study of Friction in an Elastomeric Seal for Pneumatic Cylinders,” Tribology International, 30, pp 547–552.
- Mi, J. and Meng, Y. (2014), “Numerical Analyses of Hydrodynamic Lubrication and Dynamics of the Rolling Piston and Crankshaft in Rotary Compressor,” Tribology Transactions, 57, pp 1136–1147.
- Wang, Y. and Tung, S. C. (1999), “Scuffing and Wear Behavior of Aluminum Piston Skirt Coatings against Aluminum Cylinder Bore,” Wear, 255, pp 1100–1108.
- Merlo, A. M. (2003), “The Contribution of Surface Engineering to the Product Performance in the Automotive Industry,” Surface and Coatings Technology, 174, pp 21–26.
- Tung, S. C. and Gao, H. (2003), “Tribological Characteristics and Surface Interaction between Piston Ring Coatings and a Blend of Energy-Conserving Oils and Ethanol Fuels,” Wear, 255, pp 1276–1285.
- Podgornik, B. and Vižintin, J. (2005), “Tribological Reactions between Oil Additives and DLC Coatings for Automotive Applications,” Surface & Coatings Technology, 200, pp 1982–1989.
- Sung, H. C. (1998), “Tribological Characteristics of Various Surface Coatings for Rotary Compressor,” Wear, 221, 77–85.
- Huang, B. and Gao, G. (2012), “Improvement of Abnormal Wear between the Vane-Slot and Vane in Rotary Compressor,” Proceedings of 21st International Compressor Engineering Conference, July 16–19, 2012, West Lafayette.
- Napper, D. H. (1983), Polymeric Stabilization of Colloidal Dispersions, Vol. 3, Academic Press: London.
- Parnas, R. S. and Cohen, Y. (1994), “A Terminally Anchored Polymer Chain in Shear Flow: Self-Consistent Velocity and Segment Density Profiles,” Rheologica Acta, 33, pp 485–505.
- Klein, J. and Kumacheva, E. (1995), “Confinement-Induced Phase Transitions in Simple Liquids,” Science, 269, pp 816–819.
- Klein, J. (1996), “Shear, Friction, and Lubrication between Polymer–Bearing Surfaces,” Annual Review of Materials Science, 26, pp 581–612.
- Edmondson, S., Osborne, V. L., and Huck, W. T. (2004), “Polymer Brushes via Surface-Initiated Polymerizations,” Chemical Society Reviews, 33, pp 14–22.
- Tsujii, Y., Ohno, K., Yamamoto, S., Goto, A., and Fukuda, T. (2006), “Structure and Properties of High-Density Polymer Brushes Prepared by Surface-Initiated Living Radical Polymerization,” Advances in Polymer Science, 197, pp 1–45.
- Barbey, R., Lavanant, L., Paripovic, D., Schüwer, N., Sugnaux, C., Tugulu, S., and Klok, H. A. (2009), “Polymer Brushes via Surface-Initiated Controlled Radical Polymerization: Synthesis, Characterization, Properties, and Applications,” Chemical Reviews, 109, pp 5437–5527.
- Ejaz, M. Yamamoto, S., Ohno, K., Tsujii, Y., and Fukuda, T. (1998), “Controlled Graft Polymerization of Methyl Methacrylate on Silicon Substrate by the Combined Use of the Langmuir-Blodgett and Atom Transfer Radical Polymerization Techniques,” Macromolecules, 31, pp 5934–5936.
- Tsujii, Y., Nomura, A., Okayasu, K., Gao, W., Ohno, K., and Fukuda, T. (2009), “AFM Studies on Microtribology of Concentrated Polymer Brushes in Solvents,” Journal of Physics: Conference Series, 184, pp 012031.
- Belin, M., Arafune, H., Kamijo, T., Perret-Liaudet, J., Morinaga, T., Honma, S., and Sato, T. (2018), “Low Friction, Lubricity, and Durability of Polymer Brush Coatings. Characterized Using the Relaxation Tribometer Technique,” Lubricants, 6(2), pp 52.
- Ohno, K., Morinaga, T., Koh, K., Tsujii, Y., and Fukuda, T. (2005), “Synthesis of Monodisperse Silica Particles Coated with Well-Defined, High-Density Polymer Brushes by Surface-Initiated Atom Transfer Radical Polymerization,” Macromolecules, 38, pp 2137–2142.
- Yamamoto, S., Ejaz, M., Tsujii, Y., Matsumoto, M., and Fukuda, T. (2000), “Surface Interaction Forces of Well-Defined, High-Density Polymer Brushes Studied by Atomic Force Microscopy. 1. Effect of Chain Length,” Macromolecules, 33, pp 5602–5607.
- Bird, R. B., Stewart, W. E., and Lightfoot, E. N. (2007), Transport Phenomena. 2nd ed, John Wiley & Sons: New York.
- Chen, W. C. and Jackson, E. D. (1985), “Eccentricity and Misalignment Effects on the Performance of High-Pressure Annular Seals,” ASLE Transactions, 28(1), pp 104–110.
- Matsuura, S. and Shinozaki, N. (2011), “Optimal Process Design in Selective Assembly When Components with Small Variance Are Manufactured at Three Shifted Means,” International Journal of Production Research, 49, pp 869–882.