利用内耗方法对Fe47Al53合金中Al反位置原子的运动特征进行了研究,在410℃附近观察到了一个与合金热历史相关的弛豫型内耗峰.在快冷样品中内耗峰高度明显高于慢冷样品时内耗峰的高度;而对于快冷样品,升温测量时内耗峰高度又明显高于随后的降温测量时内耗峰的高度,内耗峰高度表明该内耗峰与快冷时残留的缺陷有关.由于该内耗峰激活能为1.88 eV,与Fe47Al53合金中Fe空位的迁移能相当,因而该峰应产生于应力诱导下Al反位置原子在Fe空位之间的运动.
参考文献
| [1] | de Diego N,Plazaola F,Jimnez J A,Serna J,R(i)o J D.Acta Mater,2005; 53:163 |
| [2] | Deevi S C,Sika V K.Intermetallics,1996; 4:357 |
| [3] | Wolff J,Franz M,Broska A,Kerl R,Weinhagen M,K(o)hler B,Brauer M,Faupel F,Hehenkamp Th.Intermetallics,1999; 7:289 |
| [4] | Chang Y A,Pike L M,Liu C T,Bilbrey A R,Stone D S.Intermetallics,1993; 1:107 |
| [5] | Schaefer H-E,Frenner K,W ü rshum R.Phys Rev Lett,1999; 82:9:8 |
| [6] | Würshum R,Grupp C,Schaefer H E.Phys Rev Lett,1995;75:97 |
| [7] | Schaefer H E,Damson B,Weller M,Arzt E,George E P.Phys Status Solidi,1997; 160a:531 |
| [8] | Blanter M S,Golovin I S,Sinning H R.Scr Mater,2005;52:57 |
| [9] | Golovin I S,Divinski S V,(C)(i)(z)ek J,Procházka I,Stein F.Acta Mater,2005; 53:2581 |
| [10] | Han F S,Zhu Z G,Gao J C.Metall Mater Trans,1999;30 A:771 |
| [11] | Nowick A S,Berry B S.Anelastic Relaxation in Crystalline Solids.New York:Academic Press,1972 |
| [12] | Bevington P R.Data Reduction and Error Analysis for the Physical Science.New York:McGraw-Hill,1969:235 |
| [13] | Kubaschewski O.Iron-Binary Phase Diagrams.Berlin:Springer,1982 |
| [14] | Fu C L.Phys Rev,1995; 52B:3151 |
| [15] | Fu C L,YeYY,YooM H,Ho K M.Phys Rev,1993; 48B:6712 |
| [16] | Wu J,Han F S,Gao Z Y,Hao G L,Wang Q Z.Phys Status Solidi,2006; 203a:485 |
| [17] | Haraguchi T,Yoshimi K,Yoo M H,Kato H,Hanada S,Inoue A.Acta Mater,2005; 53:3751 |
| [18] | Zhou Z C,Han F S,Gao Z Y.Acta Mater,2004; 52:4049 |
| [19] | Kogachi M,Haraguchi T.Mater Sci Eng,1997; A230:124 |
| [20] | Lang H,Rohrhofer K,Rosenkranz P,Kozubski R,Püschl W,Pfeiler W.Intermetallics,2002; 10:283 |
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%