以无机盐Al(NO_3)_3·9H_2O为先驱体、水为溶剂,加入不同浓度的胶溶剂HNO_3,采用溶胶-凝胶(Solgel)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(3D-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Al_2O_3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,采用真空浸渍法在3D-SiC表面浸涂加入浓度0.22mol/L HNO_3制备的γ-AlOOH溶胶能烧结形成致密平整的Al_2O_3薄膜.升高烧结温度,Al_2O_3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.
The preparation process of Al_2O_3 thin film is represented by the sol-gel method, in which Al(NO_3)_3·9H_2O is used as precusor, water and HNO_3 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 Al_2O_3 thin film. X-ray diffraction(XRD), infrared spectrometry(IR), scanning electronic microscope(SEM) are used to study the mierostrueture and phase constitution of the film. The investigation clearly shows that the thin film which prepared from γ-AlOOH sol solution added 0.22mol/L HNO_3 with vacuum impregnation method, is coated on three-dimensional silicon carbide perfectly. The grain of Al_2O_3 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 Al_2O_3 thin film increases with the sintering temperature increasing.
参考文献
| [1] | Wang Yanjun;Liu Zuomin .Tribological properties of high temperature self-lubrication metal ceramics with an interpenetrating network[J].Wear,2008,265(11-12):1720. |
| [2] | Hong C Q;Han J C;Zhang X H et al.Thermal ablation resistance of melt-infiltrated titanium diboride-(eopper,nickel) composites[J].Journal of Alloys and Compounds,2008,460(1-2):400. |
| [3] | Manfredi D;Pavese M;Biamino S et al.NiAl(Si)/Al_2O_3 co-continuous composites by double reactive metal penetration into silica reforms[J].Intermetallcs,2008,16(04):580. |
| [4] | WuC M L;Han G W .Synthesis of an Al_2O_3/Al co-continuous composite by reactive melt infihration[J].Materials Characterization,2007,58(05):416. |
| [5] | 茹红强;房明;王瑞芹 等.三维网络陶瓷-金属摩擦复合材料的真空-气压铸造方法[P].中国,200510046691.X,2006. |
| [6] | 茹红强,曲翔宇,马丽萍,里景阳.三维网络SiC陶瓷/金属复合材料摩擦性能的研究[J].东北大学学报(自然科学版),2008(01):69-72. |
| [7] | 刘克俭;申海涛 等.用溶胶-凝胶法研制氧化铝绝缘薄膜[J].电子元件与材料,1991,10(06):12. |
| [8] | 张庆勇,王浩.溶胶-凝胶法在碳化硅表面浸涂氧化铝薄膜的研究[J].硅酸盐通报,2002(02):63-66. |
| [9] | 于存贞,魏德洲,朱圣龙.采用无机盐和表面活性剂的新型溶胶-凝胶法制备氧化铝薄膜研究[J].腐蚀科学与防护技术,2007(02):92-94. |
| [10] | 姚楠,熊国兴,张玉红,杨维慎.溶胶凝胶法制备中孔分布集中的氧化物及混合氧化物催化材料[J].中国科学B辑,2001(04):355-363. |
| [11] | Póez T L;Bosch P;Asomoza M et al.DTA-TG and FTIR spectroscopes of sol-gel hydrotalcites:Aluminum sour effect on physicochemical properties[J].Materials Letters,1997,31(3-6):311. |
| [12] | Innocenzi P;Martucci A;Guglielmi M et al.Mesoporous silica thin films for alcohol sensors[J].Journal of the European Ceramic Society,2001,21(10-11):1985. |
| [13] | Fabes B D;Ulmann D R .Strengthening of class by sol-gel coating[J].Journal of the American Ceramic Society,1990,73(04):978. |
| [14] | 张勤俭,张建华,李敏,张勤河,毕进子,张代林,任升峰,胡玉景.无机盐先驱体溶胶-凝胶法制备Al2O3薄膜的研究[J].机械工程材料,2002(03):17-19. |
| [15] | Banerjee S.;Roy SK. .Net-shape forming of bi-continuous Al2O3/Al composite by displacement reaction[J].Materials Chemistry and Physics,2001(1/3):243-248. |
| [16] | 王喜娜 .氧化铝溶胶的性质与致密氧化铝膜的制备工艺研究[D].武汉理工大学,2004. |
| [17] | Matsvei Z .Coated wire and film resistor[P].US,AH01-C1012FI,338308,2008. |
| [18] | 杨志华,余萍,肖定全,王欢.利用无机盐制备γ-Al2O3粉体与薄膜的工艺技术研究[J].功能材料,2004(04):474-476. |
| [19] | 潘颐,益小苏.碳化硅与氧化铝界面化学稳定性研究[J].复合材料学报,2002(04):61-68. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%