通过机械合金化合成了NiAl-Al2O3复合材料粉末,并分别采用脉冲电流辅助烧结(PCAS)和真空热压烧结(HPS)制备了NiAl-Al2O3复合材料.测试了两组材料的力学性能,并从烧结机理的角度分析了烧结方法对材料微观组织和力学性能的影响.结果表明:与HPS方法相比,通过PCAS方法制备的材料致密度更高,晶粒更为细小,且Al2O3颗粒明显球化.相较于HPS方法制备的材料,PCAS方法制备的材料在室温下和高温下都表现出更高的屈服强度,并且其断裂韧性增高,室温压缩变形量明显增大.
参考文献
| [1] | N.S. Sbloff;C.T. Liu .Emerging applications of intermetallics[J].Intermetallics,2000(9/11):1313-1320. |
| [2] | W.W. Lee;D.B. Lee .High temperature oxidation of an oxide-dispersion strengthened NiAl[J].Intermetallics,1999(12):1361-1366. |
| [3] | Q. Gao;J. T. Guo;K. W. Huai .The microstructure and compressive properties of as-cast NiAl-28Cr-5.8Mo-0.2Hf containing minor Dy[J].Materials Letters,2005(23):2859-2862. |
| [4] | L.Y. Sheng;J.T. Guo;H.Q. Ye .Microstructure And Mechanical Properties Of Nial-cr(mo)/nb Eutectic Alloy Prepared By Injection-casting[J].Materials & design,2009(4):964-969. |
| [5] | J.T. Guo;LY. Sheng;Y.X. Tian;L.Z. Zhou;H.Q. Ye .Effect of Ho on the microstructure and compressive properties of NiAl-based eutectic alloy[J].Materials Letters,2008(23):3910-3912. |
| [6] | CHANG S T;TUAN W H;YOU H C et al.Effect of surface grinding on the strength of NiAl and Al2O3/NiAl composites[J].Materials Chemistry and Physics,1999,59(03):220-224. |
| [7] | 邢占平.NiAl-TiC原位复合材料的室温韧化机制研究[J].材料工程,1997(05):20. |
| [8] | M. Tokita .Development of large-size ceramic/metal bulk FGM fabricated by spark plasma sintering[J].Materials Science Forum,1999(0):83-88. |
| [9] | Kim H.;Kawahara M. .Specimen Temperature and Sinterability of Ni Powder by Spark Plasma Sintering[J].粉体ぉょび粉末冶金,2000(8):887-891. |
| [10] | 张春萍 .γ-TiAl基合金的脉冲电流辅助烧结及组织性能研究[D].哈尔滨工业大学,2009. |
| [11] | 宋桂明,周玉,王玉金,雷廷权.TiCp/W复合材料的制备工艺与力学性能[J].稀有金属材料与工程,1999(03):171-175. |
| [12] | LASALMONIE A;STRUDEL J L .Influence of grain size on the mechanical behaviour of some high strength materials[J].Journal of Materials Science,1986,21(06):1837-1852. |
| [13] | 李玉清;刘锦岩.高温合金晶界间隙相[M].北京:冶金工业出版社,1990:380. |
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%