中文摘要：

以无机盐Al（NO3）3·9H2O为先驱体、水为溶剂，加入不同浓度的胶溶剂HNO3，采用溶胶-凝胶（Sol-gel）法制备了勃姆石（γ-AlOOH）溶胶。分别以溶液下降法和真空浸渍法在三维网络碳化硅陶瓷骨架（3I）-SiC）表面浸涂γ-AlOOH溶胶，采用不同烧结制度在3D-SiC表面生成了Al2O3薄膜。采用X射线衍射仪（XRD）、红外光谱仪（IR）和扫描电子显微镜（SEM）分析了薄膜的物相和显微结构，并检测了薄膜的抗热震性。结果表明，采用真空浸溃法在3D-SiC表面浸涂加入浓度0．22mol／L HNO3制备的γ-AlOOH溶胶能烧结形成致密平整的Al2O3薄膜。升高烧结温度，Al2O3晶粒长大，900℃时薄膜最致密且能观测到玻璃态显微结构。薄膜的抗热震性随烧结温度升高而提高。

英文摘要：

The preparation process of Al2O3 thin film is represented by the sol-gel method,in which AI（NO3）3 · 9H2O is used as precusor, water and HNO3 as solvent and peptizing agent, respectively. Dip-coating and vacuum impregnation methods are used to coat γ-AlOOH sol solution on three-dimensional silicon carbide sintered at different temperature to form Al2O3 thin film. X-ray diffraction（XRD）, infrared spectrometry（IR）, scanning electronic microscope（SEM） are used to study the microstructure and phase constitution of the film. The investigation clearly shows that the thin film which prepared from T-All）OH sol solution added 0. 22mol/L HNO3 with vacuum impregnation method, is coated on three-dimensional silicon carbide perfectly. The grain of Al2O3 increases with the sintering temperature increasing. The thin film is full density at 900℃, and the glass microstructure is observed. The thermal shock resistance of the Al2O3 thin film increases with the sintering temperature increasing.