通过盐浴热处理实验,研究了Fe-0.6C二元合金和Fe-0.6C-1M/2M三元合金(质量分数,%,M为Mn和Si)在1073 K下的组织演化和相变动力学.结果表明,Fe-0.6C合金在1073 K保温约5.5 s完成珠光体→奥氏体转变,珠光体中渗碳体先于铁素体转变成奥氏体;添加1%Si减缓了奥氏体化速率,但未改变渗碳体先消失的特征;添加1%-2%Mn略微缩短了奥氏体转变完成时间,但珠光体中渗碳体和铁索体几乎同时完成奥氏体转变.在C扩散控制长大的假设下,奥氏体在单个珠光体片层间的一维长大模拟结果表明,通过改变界面处奥氏体的C浓度,Mn提高奥氏体生长速率而Si减缓奥氏体生长速率,与奥氏体化动力学实验结果一致.1073 K下Fe-C-Mn/Si三元合金的珠光体-奥氏体相变由C扩散控制.
参考文献
| [1] | Roberts R A,Mehl R F.Trans ASM,1943; 31:613 |
| [2] | Brooks C R.Principles of the Austenitization of Steels.London:Elsevier Applied Science,1992:81 |
| [3] | Samuels L E.Light Microscopy of Carbon Steels.Materials Park:ASM International,1999:185 |
| [4] | Li Z D,Miyamoto G,Yang Z G,Furuhara T.Ser Mater,2009; 60:485 |
| [5] | Hillert M,Nilsson K,Torndahl L E.J Iron Steel Inst,1971;209:49 |
| [6] | Akbay T,Atkinson C.J Mater Sci,1996; 31:2221 |
| [7] | Roosz A,Gacsi Z,Fuchs E G.Acta Metall,1983; 31:509 |
| [8] | Speicb G R,Szirmae A.Trans TMS-AIME,1969; 245:1063 |
| [9] | Caballero F G,Capdevila C,García de Andrés C.Scr Mater,2000; 42:1159[10]Karmazin L.Mater Sci Eng,1991; A142:71 |
| [10] | Caballero F G,Capdevila C,García de Andrés C.Scr Mater,2000; 42:1159[10]Karmazin L.Mater Sci Eng,1991; A142:71 |
| [11] | Miyamoto G,Usuki H,Li Z D,Furuhara T.Acta Mater,2010; 58:4492 |
| [12] | Judd R R,Paxton H W.Trans TMS-AIME,1968; 242:206 |
| [13] | Akbay T,Reed R C,Atkinson C.Acta Metall Mater,1994;42:1469 |
| [14] | Mancini R,Budde C.Acta Mater,1999; 47:2907 |
| [15] | Kumar M,Sasikumar R,Nair P K.Acta Mater,1998; 46:6291 |
| [16] | García de Andrés C,Caballero F G,Capdevila C,Bhadeshia H K D H.Scr Mater,1998; 39:791[17]Coates D E.Metall Trans,1973; 4:2313 |
| [17] | García de Andrés C,Caballero F G,Capdevila C,Bhadeshia H K D H.Scr Mater,1998; 39:791[17]Coates D E.Metall Trans,1973; 4:2313 |
| [18] | Hillert M.In:(A)gren J,Bréchet Y,Hutchinson C,Philibert J,Purdy G eds.,Thermodynamics and Phase Transformations:the Selected Works of Mats Hillert,France:EDP Sciences,2007:9 |
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%