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Development and Performance Evaluation of Anti-cavitation Paint with a Lamella Glass-flake
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  • Journal title : Korean Chemical Engineering Research
  • Volume 54, Issue 2,  2016, pp.145-151
  • Publisher : The Korean Institute of Chemical Engineers
  • DOI : 10.9713/kcer.2016.54.2.145
 Title & Authors
Development and Performance Evaluation of Anti-cavitation Paint with a Lamella Glass-flake
Park, Hyeyoung; Kim, Sung-gil; Kim, Sang-suk; Choi, I-chan; Kim, Byungwoo; Kim, Seung-jin;
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 Abstract
In response to the cavitation caused by the partial vacuum caused by the fluid flow, a paint was developed by dispersing the lamella-shaped glass-flake in resin for anti-cavitation. This composite paint was developed by using the inorganic filler (lamella shaped glass-flake) and the NBR (Acrylonitrile-butadiene rubber) which was modified epoxy resin. Especially, the glass-flake was a thin film with a thickness of about 100~200 nm and length of about , the aspect ratio was about 200 to 300 times that of the plate-shaped. So the paint for anti-cavitation have shown excellent performance in corrosion resistance. The results of evaluating anti-cavitation performance was below, tensile strength or more, rupture elongation 30% or higher, abrasive speed or less. In particular, it showed more than twice the superior performance compared to existing advanced foreign products in anti-cavitation performance evaluation.
 Keywords
Paint;Cavitation;Glass-flake;Lamella shaped;NBR;
 Language
Korean
 Cited by
 References
1.
Nevarez-Rascon, A., Orrantia-Borunda, E., Gonzalez-Hernandez, J., Flores-Gallardo, S. and Hurtado-Macias, A., "Mechanical Characterization of Optical Glass Fiber Coated with a Thin Film of Silver Nano-particles by Nano-indentation," Material Letters, 63-66(2014).

2.
Chow, W. S., "Water Absorption of Epoxy/glass Fiber/organo - montmorillonite Nanocomposites," Express Polimer Letters, 104-108(2007).

3.
Chou, T. P., Chandrasdkaran, C., Limmer, S. K., Serji, S., Wu, Y., Forbess, M. J., Nguyen, C. and Cao, G. Z., "Organic-inorganic Hybrid Coatings for Corrosion Protection," Journal of Non-crystalline Solids 290, 153-162(2001). crossref(new window)

4.
Lee, C. M., Oh, J. K. and Rhee, S. H., "Two-dimensional Model Tests for Rudder Gap Cavitation and Suppression Devices," SNAK, 47(2), 122-131(2010). crossref(new window)

5.
Kim, K. H. and Chahine G., "Advanced Experimental and Numerical Techniques for Cavitation Erosion Prediction, Fluid Mechanics and Its Applications," Franc, J. P. and Karimi, A., e-Book ed., Springer (2014).

6.
Kim, S. P., Park, J. J., Kim, Y. S., Jang, Y. H., Choi, Y. B. and Paik, B. G., "An Experimental Research on Gap Entrance Profile Ofr Seni-spade Rudder," SNAK 43(5), 578-585(2006). crossref(new window)

7.
Boo, K. T., Han, J. M., Song, I. H. and Shin, S. C., "Viscous Flow Analysis for the Rudder Section Using Fluent Code," SNAK, 40(4), 30-36(2003).

8.
Kelly, S. and Segal, C., "Simulation of Cryogenics Cavitation," AIAA Journal, 49(11) 2502-2510(2011). crossref(new window)

9.
Bensow, R. E., Bark, G. and Lu, N., Proceedings of the 8th International Symposium on Cavitation, CAV2012, Singapore, Hydrodynamic Mechanisms in Cavitation Erosion.(2012).

10.
Choi, J. Y. and Kim, S. W., "Functional Cavitation Resistance Coating System with Organic-inorganic Hybrid," KIC News, 16(5), 28-42(2013).

11.
Céline de Lame, Jean-Marie, Claeys, CoRI, Greenwood, P. and Lagnemo H., "Modified Colloidal Silica in Silicate Paints," Architectural Coatings, 49-52(2010).

12.
Paik, B. G., Kim, K. Y., Kim, K. S., Kim, T. S,. Kim, K. R., Jang, Y. H. and Lee, S. U., "Development of New Cavitation Erosion Test Method for Analyzing the Durability of Erosion Resistance Paint," SNAK, 47(2), 132-140(2010). crossref(new window)

13.
He, Y. and Shen Z., "Experimental Research on Cavitation ErosionDetection Based on Acoustic Emission Technique," 30th EuropeanConference on Acoustic Emission Testing & 7th International Conference on Acoustic Emission University of Granada(2012).

14.
Thenepalli, T., Ahn, Y. J., Han, C., Ramakrishna, C. and Ahn, J. W., "A Strategy of Precipitated Calcium Carbonate ($CaCO_3$) Fillers for Enhancing the Mechanical Properties of Polypropylene Polymers," Korean J. Chem. Eng., 32(6), 1009-1022(2015). crossref(new window)

15.
Kim, S. W., "Preparation and Characteristics of Biodegradable Polyurethane/Clay Nanocomposite Films," Korean Chem. Eng. Res., 51(3), 382-387(2013). crossref(new window)

16.
Kalumuck, K. M., Chahine, G. L., Frederick, G. S., and Aley, P. D., 9th American Waterjet Conference Dearborn Michigan, Development of a Cavitation Water Jet Cleaning Tool for Linderwater Marine Fouling Removal, 541-554(1997).

17.
Soyama, H., "Effect of Nozzle Geometry on a Standard Cavitation Erosion Test Using a Cavitating Jet," Wear, 297, 895-902 (2013). crossref(new window)

18.
Qin, C. P., Zheng, T. G. and Wei, R., "Caviatation Erosion Behavior of Nanocomposite Ti-Si-C-N and Ti/Ti-Si-C-N Coatings Deposited on 2Cr13 Stainless Steel Using a Plasma Enhanced Magnetron Sputtering Process," Surface & Coatins Technology, 3530-3538 (2010).

19.
Chang, J. T., Yeh, C. H., He, J. L. and Chen, K. C., "Cavitation Erosion and Corrosion Behavior of Ni-Al Intermetallic Coatings," Wear, 162-169(2003).

20.
Liu, T. and Sullivan, P., Pressure and Temperature Sensitive Paints Experimental Fluid Mechanics, 1st ed., New York: Springer, (2004).