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来源:百度知道 编辑:UC知道 时间:2024/06/23 01:32:23
本文通过观察溶液上清液的高度随时间变化的快慢,来判断溶液的稳定性,在水溶液体系筛选出最佳分散剂为三乙醇胺、C16-MADS +SDS和六偏磷酸钠,并研究出各分散剂最佳分散条件均在弱碱性(pH 9)下。同时,研究了C16-MADS +SDS对纳米ZnO的改性作用。
用恩氏粘度,来判断分散性的优劣。得到C16-MADS +SDS和六偏磷酸钠两种分散剂,在釉料中的最佳分散条件。
通过对加不加纳米ZnO釉面的性质,发现纳米ZnO有提高釉面光泽度、白度、显微硬度的作用,能增强釉面耐腐蚀性能力。
经山西省玻陶研究所测量改性纳米ZnO的釉料,其始熔温度降低15℃左右。说明纳米ZnO有降低釉的始熔温度的作用。
本文首次以C16-MADS +SDS为分散剂,将纳米ZnO分散于水和陶瓷釉料中。将1-5%比例的纳米ZnO分散于陶瓷釉料中,釉料的分散性和流动性良好,施釉后釉面不开裂,基本解决了釉料中加入纳米ZnO而产生的团聚问题。
通过对纳米ZnO在釉料中分散性的研究,拓宽了纳米粉体在陶瓷工业的应用范围,对纳米ZnO在陶瓷工业大规模使用,提供了实验依据。
关键字:纳米ZnO, 分散剂, 团聚, 陶瓷釉料
Nano-ZnO as a new functional materials, with a wide range of uses. However, nano-ZnO particles easily reunion, restricted their existing large-scale use of the ceramic industry. Therefore, there is an urgent need to study the dispersion of ZnO effective means and modified technology.
Through the observation of the supernatant solution over time of high speed, to determine the stability of solution, in water filter system for the best dispersant triethanolamine, C16-MADS + SDS and six partial sodium and Dispersant to work out the best conditions are scattered in the weak alkaline (pH 9) under. Meanwhile, the C16-MADS + SDS on the modified role of ZnO.
With TU's viscosity, to judge the merits of decentralization. By C16-MADS + SDS and six partial sodium two dispersing agent, in the glaze in the best conditions for decentralization.
Through the Jiana Mi ZnO glazed and not of the nature and found that nano-ZnO improved glazed gloss, white, the role of micro-hardnes