摘要: |
为构建疏水性安全壳内壁面涂层以提高事故中的传热能力,以Si作为功能涂层材料,在其表面上制备了不同圆孔间距及圆孔深度的微孔阵列样品以研究微米结构对表面疏水特性的影响,并对其疏水机理进行分析。结果表明,所制备的微孔样品润湿特性均符合CassieBaxter模型,在本征接触角为69.5°的Si表面通过微孔结构调控可显著提高疏水特性,获得了具有140°接触角的优异疏水特性样品而未进行表面化学修饰。研究结果为设计安全壳涂层材料及其表面微结构提供了技术方案,为强化核电站非能动安全壳冷却系统传热性能提供了解决思路。 |
关键词: 疏水性 涂层 微观结构 安全壳 核电站 |
DOI:10.11933/j.issn.1007-9289.2015.03.014 |
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Fabrication of Porous Microstructures on Si for Hydrophobic Containment Vessel Surface |
ZHAO Wei, FAN Huanran, YANG Lin, DU Wangfang
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State Nuclear Power Technology Research & Development Center, Beijing 102209
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Abstract: |
To construct hydrophobic containment vessel (CV) surface to enhance heat transfer capability under accident conditions, porous microstructures with various diameters and heights on silicon wafers were systematically prepared, and the hydrophobic mechanism of the microstructures were investigated. Results show that the wetting characteristics of all the samples belong to the CassieBaxter model. The hydrophobic properties can be effectively improved by microstructure modulation, and the contact angles are dramatically enhanced from 69.5° to 140° without chemical modifications. The results provide solutions for design of coating materials in CV, as well as the methods for enhancing the heat transfer performance of passive containment cooling system in a nuclear power plant. |
Key words: hydrophobicity coating microstructure containment vessel nuclear power plant |