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金属学报  2010, Vol. 46 Issue (5): 528-532    DOI: 10.3724/SP.J.1037.2009.00747
  论文 本期目录 | 过刊浏览 |
稀土元素Gd对NiAl-Cr(Mo)-Hf共晶合金的组织和压缩性能的影响
梁永纯1); 郭建亭2); 盛立远2); 周兰章2)
1) 广东电网公司电力科学研究院; 广州 510080 2) 中国科学院金属研究所; 沈阳 110016
EFFECTS OF RARE EARTH ELEMENT Gd ON THE MICROSTRUCTURE AND MECHANICAL PROPERTIES OF NiAl-Cr(Mo)-Hf EUTECTIC ALLOY
LIANG Yongchun1); GUO Jianting2); SHENG Liyuan2); ZHOU Lanzhang2)
1) Electric Power Research Institute of Guangdong Power Grid Corporation; Guangzhou 510080
2)  Institute of Metal Research; Chinese Academy of Sciences; Shenyang 110016
全文: PDF(691 KB)  
摘要: 

采用真空电弧炉熔炼方法制备了添加稀土元素Gd的Ni-33Al-28Cr-5.9Mo-0.1Hf (原子分数, %)合金, 运用扫描电镜(SEM)、电子探针显微分析(EPMA)及透射电镜(TEM)分析了该合金的微观组织形貌和相组成, 采用Gleeble 1500进行了室温及高温压缩性能测试. 研究表明, 稀土元素Gd极少部分固溶于NiAl与Cr(Mo)相中, 大部分参与形成Heusler相. 适量Gd可细化共晶合金的组织, 即减小NiAl/Cr(Mo)共晶胞的尺寸及共晶层片的间距, 因此提高了合金的室温压缩屈服强度与压缩塑性, 但对1373 K时的压缩强度影响较小. 当Gd含量达到0.1 (质量分数, %)时, 共晶胞界宽化, 且胞界的Cr(Mo)相出现粗化及不规则分布现象, 导致室温和高温压缩性能降低.

关键词 NiAl基合金稀土Gd金属间化合物组织力学性能    
Abstract

The effects of rare earth element Gd on the microstructure and compressive properties of Ni-33Al-28Cr-5.9Mo-0.1Hf (atomic fraction, %) eutectic alloy at room temperature and 1373 K were studied. Very little amount of Gd dissolved in the NiAl and Cr(Mo) phases, and much more amount of Gd distributed in Heusler phase. Addition of Gd induced the microstructural refinement, including the decrease of the eutectic cell size and the lamellae spacing between the NiAl and Cr(Mo) plates. The proper Gd addition leads to the improvement of the compressive yield strength and ductility of the alloy at room temperature, but Gd has a little effect on the compressive properties at 1373 K. However, the Cr(Mo) phase was coarsened and distributed irregularly when 0.1 Gd (mass fraction, %) was added into the alloy, which resulted in the decrease of compressive properties at the testing temperature.

Key wordsNiAl base alloy    rare earth Gd    intermetallics    microstructure    mechanical property
收稿日期: 2009-11-10     
通讯作者: 郭建亭     E-mail: ycliang@yahoo.cn
Corresponding author: GUO Jianting     E-mail: ycliang@yahoo.cn
作者简介: 梁永纯, 男, 1978年生, 博士

引用本文:

梁永纯 郭建亭 盛立远 周兰章. 稀土元素Gd对NiAl-Cr(Mo)-Hf共晶合金的组织和压缩性能的影响[J]. 金属学报, 2010, 46(5): 528-532.
LIANG Yong-Quan, GUO Jian-Ting, ZHOU Lan-Zhang. EFFECTS OF RARE EARTH ELEMENT Gd ON THE MICROSTRUCTURE AND MECHANICAL PROPERTIES OF NiAl-Cr(Mo)-Hf EUTECTIC ALLOY. Acta Metall Sin, 2010, 46(5): 528-532.

链接本文:

https://www.ams.org.cn/CN/10.3724/SP.J.1037.2009.00747      或      https://www.ams.org.cn/CN/Y2010/V46/I5/528

[1] Noebe R D, Bowman R R, Nathal M V. Int Mater Rev, 1993; 38: 193 [2] Johnson D R, Chen X F, Oliver B F, Noebe R D, Whittenberger J D. Intermetallics, 1995; 3: 99 [3] Darolia R. JOM, 1991; 43: 44 [4] Whittenberger J D, Locci I E, Darolia R, Bowman R R. Mater Sci Eng, 1999; A268: 165 [5] Guo J T, Cui C Y, Chen Y X, Li D X, Ye H Q. Intermetallics, 2001; 9: 287 [6] Guo J T, Huai K W, Gao Q, Ren W L, Li G S. Intermetallics, 2007; 15: 727 [7] Guo J T, Yuan C, Hou J S. Acta Metall Sin, 2008; 44: 513 (}~~,  ~, (. . 2008; 44: 513) [8] Fu H M, Wang H, Zhang H F, Hu Z Q. Scr Mater, 2006; 55: 147 [9] Li S, Zhao DQ, PanMX,WangWH. J Non–Cryst Solids, 2005; 351: 2568 [10] Xu X, Chen L Y, Zhang G Q, Wang L N, Jiang J Z. Intermetallics, 2007; 15: 1066 [11] Zheng Q, Cheng S, Strader J H, Ma E, Xu J. Scr Mater, 2007; 56: 161 [12] Xu J W. J Alloys Compd, 2008; 448: 331 [13] Wu X, Song D, Xia K. Mater Sci Eng, 2002; A329–331: 821 [14] Li W, Inkson B, Horita Z, Xia K. Intermetallics, 2000; 8: 519 [15] Xia K, Wu X, Song D. Acta Mater, 2004; 52: 841 [16] Xia K, Li W, Liu C. Scr Mater, 1999; 41: 67 [17] Walter J L, Cline H E. Metall Trans, 1970; 1: 1221 [18] George E P, Liu C T. J Mater Res, 1990; 5: 754 [19] Briant C L. Metall Trans, 1990; 21A: 2339 [20] Chen X F, Johnson D R, Noebe R D, Oliver B F. J Mater Res, 1995; 10: 1159 [21] Pop V, Coldea M, Neumann M, Chiuzbaian S, Todoran D. J Alloys Compd, 2002; 333: 1 [22] Fox A G, Tabbernor M A. Acta Metall Mater, 1991; 39: 669
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