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作 者:周健儿[1] 吴也凡[1] 石纪军[1] 何汝杰[1] 陈猛[1] 王家衡[2]
机构地区:[1]景德镇陶瓷学院江西省高等学校无机膜重点实验室,景德镇333001 [2]深圳大学,深圳518060
出 处:《陶瓷学报》2009年第4期463-467,共5页Journal of Ceramics
基 金:江西省教育厅科学技术研究项目(编号:GJJ09268);江西省教育厅青年科学基金项目(编号:GJJ09539)资助
摘 要:分别在CaCl2和KCl稀溶液中,用AFM研究了四方相ZrO2纳米涂层的表面排斥力随作用距离的变化关系。Ca2+在ZrO2纳米涂层表面具有特征吸附,而K+表现出惰性电解质的特征。随着CaCl2浓度的升高,ZrO2纳米晶涂层表面的双电层受到压缩,其排斥力的作用范围缩小,排斥力的强度呈下降趋势。随着CaCl2浓度的增大,渗透通量呈明显下降的趋势。随着KCl浓度的增大,渗透通量呈稍有增大的趋势。所产生的短程非DLVO作用力可能来源于Ca2+的特征吸附。The variation in surface repulsive force of tetragonal Nano-crystalline ZrO2 coating with operation range was investigated by atomic force microscopy (AFM) in the calcium chloride and potassium chloride dilute solutions respectively. A characteristic adsorption was found for Ca2+ on the surface of nano-crystalline ZrO2 coating, while K+ exhibited an inert electrolyte behavior. The electric double layer of Nano-crystalline ZrO2 coating surface was compressed, range of action of repulsive force was narrowed, strength of repulsive force was decreased, and the water flux of ceramic microfiltration membrane decreased obviously with the increase of concentration for calcium chloride. But the water flux increased slightly with the increasing of concentration for potassium chloride. The short-range non-DLVO repulsive force comes from the characteristic adsorption of Ca2+ possibly.
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