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Received July 10, 2013
Accepted October 17, 2013
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RETRACTED ARTICLE: Effect of a marine bacterial biofilm on adhesion and retention of pseudo barnacle to silicone coating surface
1School of Mechanical and Aerospace Engineering, Seoul National University, Seoul 151-742, Korea 2Institute of Advanced Machinery and Design (IAMD), Seoul National University, Seoul 151-742, Korea 3Coastal Engineering & Ocean Energy Research Department, Korea Institute of Ocean Science and Technology, 1270, Sa-dong, Ansan 426-744, Korea
jhko@kiost.ac
Korean Journal of Chemical Engineering, February 2014, 31(2), 262-267(6), 10.1007/s11814-013-0218-1
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Abstract
The effect of a marine bacterial Cytophaga lytica (C. lytica) biofilm on the adhesion and retention of a pseudobarnacle (epoxy adhesive) to platinum-cured silicone coatings was investigated at varying coating thickness (100-800 μm), modulus (E=0.08-1.3MPa), and shear rate (2-22 μm/s). The initial adhesion of C. lytica biofilm on the silicone coating surfaces was increased as the coating modulus was increased. Nonetheless, the adhesion strength of the pseudobarnacle was not significantly influenced by the attached biofilms, with its strength decreasing with increasing_x000D_
the coating modulus. Thus, these results suggest that the pseudobarnacle adhesion strength would be primarily determined by physico-mechanical properties of the silicone coatings. Also, the adhesion/detachment tests demonstrated that the retention of the pseudobarnacle after water jetting was minimal for the soft silicone coating (VP1), which showed better performance than the widely acceptable silicone resin of DC 3140.
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Huang S, Hadfield MG, Mar. Ecol. Prog. Ser., 260, 161 (2003)
Maki JS, Mitchell R, Bull. Mar. Sci., 37, 675 (1985)
Dexter SC, Sullivan JD, Williams J, Watson SW, Appl. Microbiol., 30, 298 (1975)
Dexter SC, J. Colloid Interface Sci., 70, 346 (1979)
Baier RE, Bitton G, Marshall KC(Ed.), Adsorption of microorganisms to surfaces, John Wiley & Sons, 58 (1980)
Callow ME, Fletcher RL, International Biodeterioration & Biodegradation, 24, 333 (1994)
Stafslien SJ, Daniels J, Mayo B, Christianson D, Chisholm B, Ekin A, Webster D, Swain G, Biofouling, 23, 45 (2007)
Sperling LH, Introduction to physical polymer science, Wiley and Sons, 2nd Ed., 428 (1992)
Stafslien SJ, Bahr JA, Feser JM, Weisz JC, Chisholm BJ, Ready TE, Boudjouk P, J. Comb. Chem., 8, 156 (2006)
Kim J, Chisholm BJ, Bahr J, Biofouling, 23, 113 (2007)
Owens DK, Wendt RC, J. Appl. Polym. Sci., 13, 1741 (1969)
Grasland B, Mitalane J, Briandet R, Quemener E, Meylheuc T, Linossier I, Vallee-Rehel K, Haras D, Biofouling, 19, 307 (2003)
Perbrey RS, Marshall KC, Schneider RP, Appl. Environ. Microbiol., 65, 2877 (1999)
Gray NL, Banta WC, Loeb GI, Biofouling, 18, 269 (2002)
Bakker DP, Huijs FM, de Vries J, Klijnstra JW, Busscher HJ, van der Mei HC, Colloids Surf. B: Biointerfaces, 32, 179 (2003)
