本文概述了海洋防污涂料的发展情况,并重点介绍了新型环保防污涂料的发展现状及其作用机制,同时分析了其面临的问题,并提出了如何解决新型防污涂料的应用,以及海洋防污涂料未来发展的趋势.
参考文献
| [1] | 刘登良.海洋涂料与涂装技术[M].北京:化学工业出版社,2002:103-105. |
| [2] | 马士德.舰船的生物附着与腐蚀调查[J].海洋学报(中文版),1996(01):18-21. |
| [3] | 黄宗国;蔡如星.海洋污损生物及其防除[M].北京:海洋出版社,1984:1-32. |
| [4] | 李慧娟,王国建.船舶防污涂料研究进展[J].涂料工业,2005(03):45-49. |
| [5] | 刘超,付玉彬,郑纪勇.环境友好型防污剂及海洋防污涂料的研究进展[J].材料开发与应用,2009(04):69-74. |
| [6] | 方震.防污涂料的发展趋势[J].上海涂料,2011(09):31-33. |
| [7] | Soren Kiil;Claus E. Weinell;Michael Stanley Pedersen;Kim-Dam-Johansen .Analysis of Self-Polishing Antifouling Paints Using Rotary Experiments and Mathematical Modeling[J].Industrial & Engineering Chemistry Research,2001(18):3906-3920. |
| [8] | Yocihi Yonehara;Hiroshi Yamashita;Chikara Kawamura .A new antifouling paint based on a zinc acrylate copolymer[J].Progress in Organic Coatings: An International Review Journal,2001(3/4):150-158. |
| [9] | Yebra DM;Kiil S;Dam-Johansen K .Antifouling technology - past, present and future steps towards efficient and environmentally friendly antifouling coatings[J].Progress in Organic Coatings: An International Review Journal,2004(2):75-104. |
| [10] | Vall'ee Rehel K;Langlois V;Guerin P .Contribution of pendant ester group hydrolysis to the erosion of acrylic polymers in binder aimed at organotin-free antifouling paints[J].Journal of Environmental Polymer Degradation,1998,6(04):175-186. |
| [11] | Crisp D.The role of the biologist in antifouling research[A].Northwestern University Press,1973:88. |
| [12] | Anon.Review of Current and Future Marine Antifouling Coatings[A].,1993 |
| [13] | Kuo P.Interface-crashed polishing type of tin-free antifouling coatings[A].Honolulu,HI,USA,1997 |
| [14] | Honda Y.Technology after ban TBT in Japan[A].,1997:18. |
| [15] | 桂泰江,王科.低表面能海洋防污涂料的现状和发展趋势[J].现代涂料与涂装,2010(11):32-35. |
| [16] | Mattias B .Coatings modulus and barnacle bioadhesion[J].BIOFOULING,2003,19(Supplement):63-69. |
| [17] | D. E. WENDT;G. L. KOWALKE;J. KIM;I. L. SINGER .Factors that influence elastomeric coating performance: the effect of coating thickness on basal plate morphology, growth and critical removal stress of the barnacle Balanus amphitrite[J].Biofouling,2006(1/2):1-9. |
| [18] | MANOJ K. CHAUDHURY;JOHN A. FINLAY;JUN YOUNG CHUNG;MAUREEN E. CALLOW;JAMES A. CALLOW .The influence of elastic modulus and thickness on the release of the soft-fouling green alga Ulva linza (syn. Enteromorpha linza) from poly(dimethylsiloxane) (PDMS) model networks[J].Biofouling,2005(1):41-48. |
| [19] | Sun Y J .Surface elastic modulus of barnacle adhesive and release characteristics from silicone surfaces[J].BIOFOULING,2004,20(06):279-289. |
| [20] | 王贤明,王华进,王力,刘登良.无毒低表面能防污涂料[J].涂料工业,2004(01):40-43. |
| [21] | Diego M Y .Antifouling technology-past,present & future steps towards efficient and environmentally friendly antifouling coatings[J].Progress in organic Coatings,2004,50:99. |
| [22] | 美研制成功舰艇防污仿生环保涂层[J].表面工程资讯,2005,5(02):30. |
| [23] | Bechert D W;Bruse M;Hage W et al.FIuid mechanics of biolgogica surfaces and their technological application[J].Naturwissenschaften,2000,87(04):157-171. |
| [24] | 田丽梅,任露泉,韩志武,施卫平,丛茜.仿生非光滑表面脱附与减阻技术在工程上的应用[J].农业机械学报,2005(03):138-142. |
| [25] | Ralph L;Antonia B K.Biomimeticfouling control using microstructured surfaces[M].Jahr Der Technik,2004 |
| [26] | 洪峰,赵中华,桂泰江.仿生防污涂料的发展概况[J].现代涂料与涂装,2002(05):7-11. |
| [27] | Kristensen JB;Meyer RL;Laursen BS;Shipovskov S;Besenbacher F;Poulsen CH .Antifouling enzymes and the biochemistry of marine settlement.[J].Biotechnology Advances: An International Review Journal,2008(5):471-481. |
| [28] | Gu J D.Biological control of zebra mussels dressena polymorpha by indigeneous bacteria and their products[A].Madison,Wisconsin,USA,1994:11. |
| [29] | Kon-ya K .Inhibitory effect of bacterial ubiquinones on the setting of barnacle Balnaus Amphitrite[J].EXPERIENTIA,1995,51:153-155. |
| [30] | LACHLAN H. YEE;CAROLA HOLMSTROeM;EVI T. FUARY;NIGEL C. LEWIN;STAFFAN KJELLEBERG;PETER D. STEINBERG .Inhibition of fouling by marine bacteria immobilised in κ-carrageenan beads[J].Biofouling,2007(3/4):287-294. |
| [31] | Willemsen P R .The screening of sponge extracts for antifouling acitivity using a bioassy with laboratoryreared cyprid larvae of the barnacle balanus Amphitrite[J].Marine-Biofouling-and-Corrosin,1994,34(3-4):361-373. |
| [32] | Okino T.;Hirota H.;Fusetani N.;Yoshimura E. .ANTIFOULING KALIHINENES FROM THE MARINE SPONGE ACANTHELLA CAVERNOSA[J].Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry,1995(47):8637-8640. |
| [33] | Tsukamoto S.;Hirota H.;Fusetani N.;Kato H. .PSEUDOCERATIDINE - A NEW ANTIFOULING SPERMIDINE DERIVATIVE FROM THE MARINE SPONGE PSEUDOCERATINA PURPUREA[J].Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry,1996(9):1439-1440. |
| [34] | Targett N M .Antifouling agent Against the marine diatom navicula salinicolahomarine from the gorgonians leptogorgia virgulata[J].Journal of Chemical Ecology,1983,9(07):817-829. |
| [35] | 詹滨秋;黄文其 .防海生物污着多肽涂料和制备方法及其用途[P].CN 1182761,1998-05-27. |
| [36] | Fischer K J .Marine organism repellent covering for protection of underwater objects and method of applying same[P].US 5226380,1993-06-13. |
| [37] | Singh I P .Potent attachment-inhibiting and promoting substances for the blue mussel,mytilus edulis galloprovincialia from two species of eucalyptus[J].Bioscience, Biotechnology, and Biochemistry,1996,60(09):1522-1523. |
| [38] | DeBerry D .Modification of the electrochemical and corrosion behavior of stainless steels with an electroactive coating[J].Journal of The Electrochemical Society,1985,132(05):1022-1026. |
| [39] | Tuken T;Yazici B;Erbil M .Electrochemical synthesis of polythiophene on nickel coated mild steel and corrosion performance[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2005(3/4):398-409. |
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