利用X射线衍射、透射电子显微镜和差示扫描量热计分析表征了Tix(Cu0.45Ni0 55)94-xSi4B2(x=50,60,70,75,80)合金粉末高能球磨后产物的相组成.结果表明,合金成分在50≤x≤70范围,球磨产物主要为非晶相,但仍残留有α-Ti纳米晶体;当x>70%时,机械研磨仅导致初始晶体相的晶粒细化,形成纳米晶结构,未发生非晶化;不同Ti含量非晶相的晶化行为依赖于合金成分;用2%的V,Zr,Nb元素分别部分替代x=70和x=75合金中Ti时,对非晶相形成范围的扩展没有明显的作用.
参考文献
| [1] | Weeber A W, Bakker H. Physica B, 1988; 153:93 |
| [2] | Koch C C. Mater Sci Forum, 1992; 88-90:243 |
| [3] | Schwarz R B, Petrich R R. J Less-Comm Met, 1988; 140:171 |
| [4] | Battezzati L, Enzo S, Schiffini L, Cocoo G. J Less-Comm Met, 1988; 145:301 |
| [5] | Politis C, Johnson W L. J Appl Phys, 1986; 60:1147 |
| [6] | Baricco M, Battezzati L, Soletta Ⅰ, Schiffini L, Cowlam N.Mater Sci Eng, 1991; A134:1398 |
| [7] | Murty B S, Ranganathan S, Mohan Rao M. Mater Sci Eng, 1992; A149:231 |
| [8] | Kim K B, Yi S, Kim S H, Kim W T, Kim D H. Mater Sci Eng, 2001; A300:148 |
| [9] | Suryanarayana C, Froes F H. Adv Mater, 1993; 5 (2): 96 |
| [10] | Liou S H, Chien C L. Phys Rev B, 1987; 35:2443 |
| [11] | Egami T, Waseda Y. J Non-Cryst Solids, 1984; 64:113 |
| [12] | Zhang T, Inoue A. Mater Trans JIM, 1998; 39:1001 |
| [13] | Inoue A, Amiya K, Katsuya A, Masumoto T. Mater Trans JIM, 1995; 36:858 |
| [14] | Zhang L C, Xu J. Mater Sci Forum, 2002; 386-388:47 |
| [15] | Zhang L C, Xu J, Ma E. J Mater Res, 2002; 17:1743 |
| [16] | de Boer F R, Boom R, Mattens W C M, Miedema A R,Nissen A Keds., Cohesion in Metals: Transition Metal Alloys, Amsterdam: North Holland, 1988 |
| [17] | Massalski T B, Okamoto H, Subramanian P R, Kacprzak L. Binary Alloy Phase Diagrams (second edition), ASM International, 1990 |
| [18] | Suryanarayana C, Froes F H, Rowe R G. Int Mater Rev,1991; 36:85 |
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%