采用浆料法结合真空浸渗工艺,制备了二维(2D)石英纤维增强多孔Si3N4-SiO2基复合材料.采用X射线衍射技术就粘结剂种类和氮化硅的加入对材料析晶性能的影响进行了分析,采用扫描电镜对不同浸渗次数复合材料的截面和断口形貌进行了观察,并采用裂纹偏转因子对复合材料断裂模式进行了分析.结果表明,粘结剂中杂质Na+促进了石英析晶,而Si3N4对石英析晶影响不大.增加浸渗次数虽不能有效提高复合材料强度,但却使裂纹偏转因子变小,断裂模式由韧性断裂向脆性断裂转变,断口形貌由纤维成束拔出变为多级拔出.
参考文献
| [1] | 傅恒志.未来航空发动机材料面临的挑战与发展趋向[J].航空材料学报,1998,18(4):52-61.Fu Hengzhi.Challenge and development trends to future aero-engine materials[J].Journal of Aeronautical Materials,1998,18(4):52-61. |
| [2] | Stephens J R,Hecht R J,Johnson A M.Material requirements for the high speed civil transport[J].ISABE,1993,1(20/24):701-710. |
| [3] | Voorde M H,Nedel M R.CMCs research in Europe and the future potential of CMCs in industry[J].Ceram Eng Sci Proc,1996,17(4):3-21. |
| [4] | 于翘.材料工艺(下册)[M].北京:宇航出版社,1993:56-67. |
| [5] | 韩桂芳,陈照峰,张立同,等.高温透波材料研究进展[J].航空材料学报,2003,23(1):57-62.Han Guifang,Chen Zhaofeng,Zhang Litong,et al.Research progress in high temperature wave-transparent materials[J].Journal of Aeronautical Materials,2003,23(1):57-62. |
| [6] | 温广武,雷廷权,周玉.石英玻璃基复合材料的研究进展[J].材料工程,2002(1):40-43.Wen Guangwu,Lei Tingquan,Zhou Yu.Progress in research on fused silica matrix composites[J].Journal of Materials Engineering,2002(1):40-43. |
| [7] | Meyer F P,Quing G D,Walck J C.Reinforcing fused silica with high purity fibers[J].Ceram Eng Sic Proc,1985,6(7/8):646-656. |
| [8] | 吴洁华,李包顺,李承恩,等.氮化物颗粒补强石英基复合材料的制备和性能研究[J].应用基础与工程科学学报,2000,8 (1):38-43.Wu Jiehua,Li Baoshun,Li Chengen,et al.Preparation and properties of nitride reinforced silica matrix composites[J].Journal of Basic Science and Engineering,2000,8(1):38-43. |
| [9] | 吴洁华,李包顺,郭景坤.SiO2-AlN复合材料的力学性能和显微结构[J].复合材料学报,2001,18(1):83-88.Wu Jiehua,Li Baoshun,Guo Jingkun.Mechanical properties and microstructure of SiO2-AlN composites[J].Acta Materiae Compositae Sinica,2001,18(1):83-88. |
| [10] | Hsieh M Y.Low dielectric loss silicon nitride based material:US,4,654,315[P].1987-03-31. |
| [11] | Leggett H.Ceramic broadband radome:US,4,358,772[P].1982-11-09. |
| [12] | 张雯,网红洁,张勇,等.凝胶注模成型制备纳米复合多孔氮化硅陶瓷[J].复合材料学报,2004,21(5):83-87.Zhang Wen,Wang Hongjie,Zhang Yong,et al.Preparation of porous Si3N4 nanocomposites by gel casting[J].Acta Materiae Compositae Sinica,2004,21(5):83-87. |
| [13] | Shankar M.Effects of moisture on fatigue behavior of SiC/SiC composite at elevated temperature[J].Materials Science and Engineering A,2005,412(1/2):165-170. |
| [14] | Levi C G,Yang J Y,Dalgleish B J,et al.Processing and performance of an all-oxide ceramic composite[J].J Am Ceram Soc,1998,81(8):2077-86. |
| [15] | Heathcote J A,Gong X Y,Yang J Y,et al.In-plane mechanical properties of an all-oxide ceramic Composite[J].J Am Ceram Soc,1999,82(10):2721-30. |
| [16] | Mattoni M A,Yang J Y,Levi C G,et al.Effects of matrix porosity on the mechanical properties of a porous-matrix,all-oxide ceramic composites[J].J Am Ceram Soc,2001,84(11) 2594-602. |
| [17] | Carelli E A V,Fujita H,Yang J Y,et al.Effects of thermal aging on the mechanical properties of a porous-matrix ceramic composite[J].J Am Ceram Soc,2002,85(3):595-602. |
| [18] | Tu W C,Lange F F,Evans A G.Concept for a damage-tolerant ceramic composite with "strong" interfaces[J].J Am Ceram Soc,1996,79(2):417-424. |
| [19] | Zok Frank W,Levi Carlos G.Mechanical properties of porous-matrix ceramic composites[J].Advanced Engineering Materials,2001,3(1/2):15-23. |
| [20] | Fujita H,Jefferson G,McMecking R M,et al.Mullite alumina mixtures for use as porous matrices in oxide fiber composites[J].J Am Ceram Soc,2004,87(2):261-267. |
| [21] | Fujita Hiroki,Levi Carlos G,Zok Frank W.Controlling mechanical properties of porous mullite/alumina mixtures via precursor-derived alumina[J].J Am Ceram Soc,2005,88(2):367-375. |
| [22] | He M Y,Hutchinson J W.Crack deflection at an interface between dissimilar elastic materials[J].Int J Solids Struct,1989,25(9):1053-1067. |
| [23] | She J H,Mechnich P,Schneider H,et al.Effect of cyclic infiltrations on microstructure and mechanical behavior of porous mullite/mullite composites[J].Materials Science and Engineering A,2002,325(1/2):19-24. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%