REFERENCES
- Yusof, A. A., Wasbari, F., and Qadafie Ibrahim, M. (2013), “Research Development of Energy Efficient Water Hydraulics Manipulator for Underwater Application,” Applied Mechanics and Materials, 393, pp 723–728.
- Siuko, M., Pitkaaho, M., Raneda, A., Pontanen, J., Tammisto, J., Palmer, J., and Vilenius, M. (2003), “Water Hydraulic Actuators for ITER Maintenance Devices,” Fusion Engineering and Design, 69(1–4), pp 141–145.
- Lim, G. H., Chua, P. S. K., and He, Y. B. (2003), “Modern Water Hydraulics—The New Energy-Transmission Technology in Fluid Power,” Applied Energy, 76(1–3), pp 239–246.
- Tang, Q. and Xiang, D. (2004), “Design of Slipper in Pure Water Hydraulic Piston Pump,” Hydraulics & Pneumatics, 9, pp 69–71.
- Feugeas, J., Gomez, B., and Craievich, A. (2002), “Ion Nitriding of Stainless Steels. Real Time Surface Characterization by Synchrotron X-ray Diffraction,” Surface & Coatings Technology, 154, pp 167–175.
- Mändl, S., Lutz, J., Díaz, C., Gerlach, J. W., and Garcia, J. A. (2014), “Influence of Reduced Current Density on Diffusion and Phase Formation during PIII Nitriding of Austenitic Stainless Steel and CoCr Alloys,” Surface & Coatings Technology, 239, pp 116–122.
- Vasylyev, M. A., Chenakin, S. P., and Yatsenko, L. F. (2012), “Nitridation of TiA6AlA4V Alloy under Ultrasonic Impact Treatment in Liquid Nitrogen,” Acta Materialia, 60, pp 6223–6233.
- Fernandes, A. P., Heck, S. C., Pereira, R. G., Picon, C. A., Nascente, A. P., and Casteletti, L. C. (2010), “Ion Nitriding of a Super Austenitic Stainless Steel: Wear and Corrosion Characterization,” Surface & Coatings Technology, 204, pp 3087–3090.
- Wang, L., Xu, B., Yu, Z., and Shi, Y. (2000), “The Wear and Corrosion Properties of Stainless Steel Nitrided by Low-Pressure Plasma-Arc Source Ion Nitriding at Low Temperatures,” Surface & Coatings Technology, 130, pp 304–308.
- Liang, J. H., Wang, C. S., Tsai, W. F., and Ai, C. F. (2007), “Parametric Study of Nitrided AISI 304 Austenite Stainless Steel Prepared by Plasma Immersion Ion Implantation,” Surface & Coatings Technology, 201, pp 6638–6642.
- Wang, H., Teeter, G., and Turner, J. A. (2011), “Modifying a Stainless Steel via Electrochemical Nitridation,” Journal of Materials Chemistry, 21, pp 2064–2066.
- Wang, L., Xu, X., Xu, B., Yu, Z., and Hei, Z. (2000), “Structure and Wear Resistance of Ion Nitrided Austenite Stainless Steel,” Tribology International, 20, pp 67–69.
- Lin, Y., Xu, T., Liang, A., and Xue, Q. (2005), “Effects of Treatment Temperature on DC-Pulsed Plasma Nitriding of 1Cr18Ni9Ti Steel,” Heat Treatment of Metals, 30, pp 64–67.
- Cui, R., Li, M., and Wang, H. (2009), “Wear and Erosion–Corrosion Behaviors of Ion-Nitrided 2Cr13 Stainless Steel,” Heat Treatment, 24, pp 55–57.
- Rasheva, Z., Zhang, G., and Burkhart, Th. (2010), “A Correlation between the Tribological and Mechanical Properties of Short Carbon Fibers Reinforced PEEK Materials with Different Fiber Orientations,” Tribology International, 43, pp 1430–1437.
- Davim, J. P. and Cardoso, R. (2009),”Effect of the Reinforcement (Carbon or Glass Fibres) on Friction and Wear Behavior of the PEEK against Steel Surface at Long Dry Sliding,” Wear, 266, pp 795–799.
- Zhang, G. and Schlarb, A. K. (2009),”Correlation of the Tribological Behaviors with the Mechanical Properties of Poly-ether-ether-ketones (PEEKs) with Different Molecular Weights and Their Fiber Filled Composites,” Wear, 266, pp 795–799.
- Chen, B., Wang, J., Liu, N., and Yan, F. (2013), “Synergetic Effect of Lubricant Additive and Reinforcement Additive on the Tribological Behaviors of PEEK-Based Composites under Seawater Lubrication,” Tribology Transactions, 56, pp 672–680.
- Mu, L. W., Zhu, J. H., Wang, H. Y., Sun, Q. J., Shi, Y. J., and Lu, X. H. (2010), “Comparative Study of Tribological Properties of Different Fibers Reinforced PTFE/PEEK Composites at Elevated Temperatures,” Tribology Transactions, 53, pp 189–194.
- Friedrich, K., Karger-Kocsis, J., and Lu, Z. (1991), “Effects of Steel Counterface Roughness and Temperature on the Friction and Wear of PE(E)K Composites under Dry Sliding Conditions,” Wear, 148, pp 235–247.
- Tang, Q., Chen, J., and Liu, L. (2010), “Tribological Behaviours of Carbon Fibre Reinforced PEEK Sliding on Silicon Nitride Lubricated with Water,” Wear, 269, pp 541–546.
- Chen, B., Wang, J., and Yan, F. (2012), “Comparative Investigation on the Tribological Behaviors of CF/PEEK Composites under Sea Water Lubrication,” Tribology International, 52, pp 170–177.
- Jia, J. H., Chen, J. M., Zhou, H. D., and Hu, L. T. (2004), “Comparative Study on Tribololgical Behaviors of Polyetheretherketone Composite Reinforced with Carbon Fiber and Poly-Tetrafluoroethylene under Water-Lubricated and Dry-Sliding against Stainless Steel,” Tribology Letters, 17, pp 231–238.
- Ovaert, T. C. (1997), “Wear of Unidirectional Polymer Matrix Composites Fiber Orientation in the Plane of Contact,” Tribology Transanctions, 40, pp 227–234.
- Flis, J. and Gajek, A. (2001), “Impedance Parameters of Nitrided 304L Stainless Steel in an Acidified Sulphate Solution,” Journal of Electroanalytical Chemistry, 515, pp 82–90.