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基于贝壳表面形貌仿生的船舶绿色防污研究 被引量:19

Research on Green Bionic Ship Antifouling Techniques Based on Surface Morphology of Shell
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摘要 分析了船体表面海洋污损生物的附着规律,以贝壳为仿生对象,提出了基于贝壳表面微结构与反附着机理的船舶绿色仿生防污新技术的实现路线,采用二维功率谱分析法确定了贝壳表面的合适采样条件,基于二维双正交小波变换对贝壳表面形貌进行了分离,提出以舟形藻作为附着试验目标生物来探讨贝壳表面抗海洋污损生物的附着机理,对防污机理的验证方法进行了阐述。 The adhesion trend of marine fouling organisms on hull surface was analyzed.Shell will be taken as bionic object and the framework of a new bionic ship green antifouling technique base on surface morphology and anti-adhesion mechanism was proposed.The suitable sampling conditions were confirmed by two-dimensional power spectrum and the surface morphology of shell was separated by two-dimensional biorthogonal wavelet transform.The idea using the boat form algae as target creature has been proposed to discuss the adhesion mechanism.The validation method of antifouling mechanism was explained.
出处 《武汉理工大学学报》 CAS CSCD 北大核心 2011年第1期75-78,112,共5页 Journal of Wuhan University of Technology
基金 国家自然科学基金(51079116)
关键词 防污 仿生 贝壳 表面形貌 antifouling bionic shell surface morphology
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参考文献12

  • 1邵静静,蔺存国,张金伟,张桂玲.鲨鱼皮仿生防污研究[J].涂料工业,2008,38(10):39-41. 被引量:21
  • 2Carman M L, Estes T G, Feinberg A W, et al. Engineered Antifouling Microtopographies-correlating Wettabilily with CellAttachment[J]. Biofouling, 2006, 22(1 -2): 11-21.
  • 3Hills J M, Thomason J C. On the Effect of Tile Size and Surface Texture on Recruitment Pattern and Density of the Barnacle, Semibalanus Balanoides[J]. Biofouling, 1998, 13: 31-50.
  • 4Andersson M, Berntsson K, Jonsson P, et al.Microtextured Surfaces: Towards Macrofouling Resistant Coatings[J]. Biofouling, 1999, 14: 167-178.
  • 5Kohler J, Hansen P D, Wahl M. Colonization Patterns at the Substratum-water Interface: How Does Surface Microtopography Influence Recruitment Patterns of Sessile Organisms?[J]. Biofouling, 1999, 14: 237-248.
  • 6Berntsson K M, Jonsson P R, Lejhall M, et al. Analysis of Behavioural Rejection of Micro-textured Surfaces and Implications for Recritment by the Barnacle Balanus Improvisus [J]. Experimental Marine Biology and Ecology, 2000, 251(1): 59-83.
  • 7Petronis S, Berntsson K, Gold J, et al. Design and Microstructuring of PDMS Surfaces for Improved Marine Biofouling Resistance[J]. Biomaterials Science : Polymer Edition, 2000, 11(10) : 1051-1072.
  • 8Callow M E, Jennings A R, Brennan A B, et al. Microtopographic Cues for Settlement of Zoospores of the Green Fouling Alga Enteromorpha[J]. Biofouling, 2002, 18(3): 229-236.
  • 9Thomason J C, Letissier M D A, Thomason P O, et al. Optimising Settlement Tiles: The Effects of Surface Texture and Energy, Orientation and Deployment Duration upon the Fouling Community[J].Biofouling, 2002, 18(4) : 293-304.
  • 10Hoipkemeier-Wilson L, Schumacher J F, Carman M L, et al. Antifouling Potential of Lubricious, Microengineered, PDMS Elastomers Against Zoospores of the Green Alga Utva (Enteromorpha) [J]. Biofouling, 2004, 20(1) : 53-63.

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