顯微結構的影響
劉英才1,譚訓彥1,孟繁琴4,劉 蕾5
(1. 山東大學 材料液態(tài)結構及其遺傳性教育部重點實驗室,
工程陶瓷山東省重點實驗室, 濟南 250061;
2. 濟南市建筑材料設計研究院,濟南 250002;
3. 濟南大學, 濟南 250022;
4. 佳木斯大學, 佳木斯 150047;
5. 濟南市第二建筑工程總公司(直屬四公司), 濟南 250021)
摘 要: 用溶膠-凝膠法和高溫煅燒在玻璃基體上制備納米TiO2薄膜,測試在各種工藝條件下制備的薄膜的親水性、紫外線激發(fā)活性等性能,利用X射線衍射法和掃描電鏡法表征其顯微結構,并重點進行了涂層層數(shù)和保溫時間對顯微結構性能影響的研究。結果表明,涂層層數(shù)增加和保溫時間延長不影響涂層中銳鈦礦晶型的穩(wěn)定性,對納米TiO2的顆粒長大也無明顯影響。
關鍵字: 納米; TiO2;薄膜; 涂層層數(shù);保溫時間
soaking time on microstructure of
nanometer TiO2 film
(1. MOE Key Lab for Liquid Structure and Heredity of Materials,
Engineering Ceramics Key Lab of Shandong Province, Jinan 250061, China;
2. Jinan Building Material Institute, Jinan 250002, China;
3. Jinan University, Jinan 250022, China;
4. Jiamusi University, Jiamusi 150047, China;
5. Jinan No.2 Building Engineering Head Company
(No.4 Company Directly), Jinan 250021, China)
Abstract:The nanometer TiO2 film was prepared on the glass body by means of sol-gel method and high temperature firing process. The super-hydrophilicity and ultraviolet ray activation of the film produced in different technical conditions were tested. The characteristics of the microstructure for film were determined by means of XRD and SEM method. The focal point of study is the effect of coating layer number and soaking time on the microstructure of nanometer TiO2 film. The results show that crystallography stability of anatase in nanometer TiO2 film is not affected by the increasing of layers and prolonging of soaking time, and no significance grain growth can be observed under those conditions.
Key words: nanometer; TiO2;film;coating layer number;soaking time
