REFERENCES
- Kim, J.-H. and Lee, M.-H. (2010), “A Study on Cavitation Erosion and Corrosion Behavior of Al-, Zn-, Cu-, and Fe-Based Coatings Prepared by Arc Spraying,” Journal of Thermal Spray Technology, 19, pp 1224–1230.
- Liu, F., Wang, J., Chen, D., Xu, Y., and Zhao, M. (2010), “The Cavitation Erosion of the 45# Carbon Steels Implanted with Titanium and Nitrogen,” Tribology Transactions, 53, pp 239–243.
- Mariasiu, F. (2013), “Numerical Investigation of the Effects of Biofuel Characteristics on the Injector Nozzle Erosion Process,” Tribology Transactions, 56, pp 161–168.
- Guo, H.X., Lu, B.T., and Luo, J.L. (2005), “Interaction of Mechanical and Electrochemical Factors in Erosion–Corrosion of Carbon Steel,” Electrochimica Acta, 51, pp 315–323.
- Fernández-Domene, R.M., Blasco-Tamarit, E., García-García, D.M., and García-Antón, J. (2011), “Cavitation Corrosion and Repassivation Kinetics of Titanium in a Heavy Brine LiBr Solution Evaluated by Using Electrochemical Techniques and Confocal Laser Scanning Microscopy,” Electrochimica Acta, 58, pp 264–275.
- Lin, Y., Liu, J., Yong, X., and Li, X. (2005), “Study of Cavitation Corrosion Behaviors and Mechanism of Carbon Steel in Neutral Sodium Chloride Aqueous Solution,” Corrosion, 61, pp 1061–1069.
- Singh, R., Tiwari, S.K., and Mishra, S.K. (2011), “Cavitation Erosion in Hydraulic Turbine Components and Mitigation by Coatings: Current Status and Future Needs,” Journal of Materials Engineering and Performance, 21, pp 1539–1551.
- Ryl, J., Darowicki, K., and Slepski, P. (2011), “Evaluation of Cavitation Erosion–Corrosion Degradation of Mild Steel by Means of Dynamic Impedance Spectroscopy in Galvanostatic Mode,” Corrosion Science, 53, pp 1873–1879.
- Hou, C., Yong, X., Wu, J., Zhang, Z., and Li, D. (2011), “Cavitation Corrosion of Anodized Aluminum Alloy in 3.5% NaCl Solution,” Corrosion, 67, pp 045003-1–045003-6.
- Wood, R.J. K. (2006), “Erosion–Corrosion Interactions and Their Effect on Marine and Offshore Materials,” Wear, 261, pp 1012–1023.
- Sahoo, R., Mantry, S., Sahoo, T.K., Mishra, S., and Jha, B.B. (2013), “Effect of Microstructural Variation on Erosion Wear Behavior of Ti-6Al-4V Alloy,” Tribology Transactions, 56, pp 555–560.
- Chen, J., Wang, J., Chen, B., and Yan, F. (2011), “Tribocorrosion Behaviors of Inconel 625 Alloy Sliding against 316 Steel in Seawater,” Tribology Transactions, 54, pp 514–522.
- Jiang, S.L., Zheng, Y.G., and Yao, Z.M. (2006), “Cavitation Erosion Behavior of 20SiMn Low Alloy Steel in Na2SO4 and NaHCO3 Solutions,” Corrosion Science, 48, pp 2614–2632.
- Chen, J.-H. and Wu, W. (2008), “Cavitation Erosion Behavior of Inconel 690 Alloy,” Materials Science and Engineering A — Structural Materials Properties Microstructure and Processing, 489, pp 451–456.
- Hou, C., Yong, X., Wu, J., Ji, J., Zhang, Z., and Wang, J. (2011), “Cavitation Corrosion Behavior of Anodized Aluminum Alloy,” Corrosion, 67, pp . 095003–095003-5.
- García-García, D.M., García-Antón, J., Igual-Muñoz, A., and Blasco-Tamarit, E. (2006), “Effect of Cavitation on the Corrosion Behavior of Welded and Non-Welded Duplex Stainless Steel in Aqueous LiBr Solutions,” Corrosion Science, 48, pp 2380–2405.
- Niebuhr, D. (2007), “Cavitation Erosion Behavior of Ceramics in Aqueous Solutions,” Wear, 263, pp 295–300.
- Zheng, Y.G., Luo, S.Z., and Ke, W. (2008), “Cavitation Erosion–Corrosion Behavior of CrMnB Stainless Overlay and 0Cr13Ni5Mo Stainless Steel in 0.5M NaCl and 0.5M HCL Solutions,” Tribology International, 41, pp 1181–1189.
- Caceres, A.P. G., Al-Hashem, Riad, W.T., and Shalaby, H.M. (1995), “Cavitation Corrosion Behavior of Cast Nickel–Aluminum Bronze in Seawater,” Corrosion, 51, pp 331–342.
- Plesset, M.S. (1962), “Pulsing technique for studying cavitation erosion of metals,” Corrosion, 18, pp 181t–188t.
- Blount, G.N., Moule, R.T., and Tomlinson, W.J. (1990), “Environmental Aspects of Cavitation Erosion in Simulated Industrial Waters,” Corrosion, 46, pp 340–347.
- Soyama, H. (2011), “Corrosion Behavior of Pressure Vessel Steel Exposed to Residual Bubbles after Cavitation Bubble Collapse,” Corrosion, 67, pp 025001-1–025001-8.
- Lichtman, J.Z., Kallas, D.H., Chatten, C.K., and Cochran, Jr., . Cdr. E. P. (1961), “Cavitation Erosion of Structural Materials and Coatings,” Corrosion, 17, pp 497t–505t.
- Luo, S.Z., Zheng, Y.G., Li, M.C., Yao, Z.M., and Ke, W. (2003), “Effect of Cavitation on Corrosion Behavior of 20SiMn Low-Alloy Steel in 3% Sodium Chloride Solution,” Corrosion, 59, pp 597–605.
- Jin, X.D. (1988), Ship Vibration, Shanghai Jiao Tong University Press: Shanghai, China.
- Cheng, C.-C., Cheng, T.-M., and Chiang, C.-H. (2008), “Defect Detection of Concrete Structures Using Both Infrared Thermography and Elastic Waves,” Automation in Construction, 18, pp 87–92.
- Han, J.-S. and Park, J.-H. (2004), “Detection of Corrosion Steel under an Organic Coating by Infrared Photography,” Corrosion Science, 46, pp 787–793.
- Lahiri, B.B., Bagavathiappan, S., Jayakumar, T., and Philip, J. (2012), “Medical Applications of Infrared Thermography: A Review,” Infrared Physics & Technology, 55, pp 221–235.
- Wu, C. and Roberts, P. (1993), “Shock-Wave Propagation in a Sonoluminescing Gas Bubble,” Physical Review Letters, 70, pp 3424–3427.
- Chen, H. and Li, J. (2009), “A Ring Area Formed around the Erosion Pit on 1Cr18Ni9Ti Stainless Steel Surface in Incipient Cavitation Erosion,” Wear, 266, pp 884–887.
- Chen, H., Li, J., Chen, D., and Wang, J. (2008), “Damages on Steel Surface at the Incubation Stage of the Vibration Cavitation Erosion in Water,” Wear, 265, pp 692–698.
- Chen, H., Li, J., Liu, S., Chen, D., and Wang, J. (2008), “Affected Zone Generated around the Erosion Pit on Carbon Steel Surface at the Incipient Stage of Vibration Cavitation,” Chinese Science Bulletin, 53, pp 943–947.
- Karrab, S.A., Doheim, M.A., Mohammed, M.S., and Ahmed, S.M. (2011), “Investigation of the Ring Area Formed around Cavitation Erosion Pits on the Surface of Carbon Steel,” Tribology Letters, 45, pp 437–444.
- Preiser, H.S. and Tytell, B.H. (1961), “The Electrochemical Approach to Cavitation Damage and Its Prevention,” Corrosion, 17, pp 535t–549t.
- Phillipp, A. and Lauterborh, W. (1998), “Cavitation Erosion by Single Laser-Produced Bubbles,” Journal of Fluid Mechanics, 361, pp 75–116.
- Zheng, H.Y., Lim, G.C., Wang, X.C., Tan, J.L., and Hilfike, J. (2002), “Process Study for Laser-Induced Surface Coloration,” Journal of Laser Applications, 14, pp 215–220.
- Qu, D.R,.G. Zheng, Y.G., Jing, H.M., Yao, Z.M., and Ke, W. (2006), “High Temperature Naphthenic Acid Corrosion and Sulphidic Corrosion of Q235 and 5Cr1/2Mo Steels in Synthetic Refining Media,” Corrosion Science, 48, pp 1960–1985.