通过使用热膨胀仪模拟奥氏体化与连续冷却过程,研究了一种过共析钢在连续冷却条件下奥氏体化与冷却速率对于先共析渗碳体及珠光体片间距的影响规律.结果表明:提高连续冷却速率、延长奥氏体化时间或者提高奥氏体化温度均可以降低相变温度,扩大相变温度区间,细化珠光体片间距,使先共析渗碳体厚度变薄或变得不连续.然而,过度地提高冷却速率或者奥氏体化温度会导致出现马氏体,破坏组织的均匀性;通过控制合适的奥氏体化温度和冷却速率,大幅度延长奥氏体化时间得到了细化的全珠光体组织,并从C原子扩散和形核生长的角度对实验现象进行了理论解释.
参考文献
| [1] | Li Y J,Choi P,Goto S,Borchers C,Raabe D,Kirchheim R.Acta Mater,2012; 60:4005 |
| [2] | Tashiro H.Nipp Steel Tec Rep,1999; 80:6 |
| [3] | Choi H C,Park K T.Scr Mater,1996; 34:857 |
| [4] | Taleff E M,Sridhar G B,Pourladian B.Wire J Int,2003;36:73 |
| [5] | Bae C M,Nam W J,Lee C S.Metall Mater Trans,2000;31A:2665 |
| [6] | Jang Y S,Phaniraj M P,Kim D I,Shim J H,Huh M Y.Metall Mater Trans,2010; 41A:2078 |
| [7] | Kanetsuki Y,Ibaraki N,Ashida S.ISIJ Int,1991; 31:304 |
| [8] | Taleff E M,Syn C K,Lesuer D R,Sherby D.Metall Mater Trans,1996; 27A:111 |
| [9] | Peng H F,Song X Y,Gao A G,Ma X L.Mater Lett,2005;59:3330 |
| [10] | Zhang Y D,Esling C,Gong M L,Vincent G,Zhao X,Zuo L.Scr Mater,2006; 54:1897 |
| [11] | San Martin D,Rivera-Diaz-del-Castillo P E J,Garciade-Andres C.Scr Mater,2008; 58:926 |
| [12] | Elwazri A M,Wanjara P,Yue S.Metall Mater Trans,2005;36A:2297 |
| [13] | Li Y,Yang Z M.Acta Metall Sin,2010; 46:1501 (李翼,杨忠民.金属学报,2010; 46:1501) |
| [14] | Han K,Mottishaw T D,Smith G,Edmonds D V,Stacey A G.Mater Sci Eng,1995; A190:207 |
| [15] | Liu Z C.Heat Treat Met,2007; 33:1 (刘宗昌.金属热处理,2007; 33:1) |
| [16] | Roberts G A,Mehl R F.Trans AIME,1943; 154:318 |
| [17] | Porter D A,Easterling K E,Sherif M Y,translated by Chen L,Yu Y N.Phase Transformation in Metals and Alloys.Beijing:Higher Education Press,2011:63 (Porter D A,Easterling K E,Sherif M Y著,陈冷,余永宁译.金属和合金中的相变.北京:高等教育出版社,2011:63) |
| [18] | Borchardt F S.Master Thesis,University of Pittsburgh,2004 |
| [19] | Scheil E.Arch Eisenhuttenw,1935; 8:565 |
| [20] | Brandt W H.Trans AIME,1946; 167:550 |
| [21] | Hull F C,Colton R A,Mehl R F.Trans AIME,1942; 50:185 |
| [22] | Guo N.PhD Dissertation,Chongqing University,2012 (郭宁.重庆大学博士学位论文,2012) |
| [23] | Howell P R.Mater Charact,1998; 40:227 |
| [24] | Elwazri A M,Wanjara P,Yue S.Mater Sci Eng,2005;A404:91 |
| [25] | Han K,Smith G,Edmonds D V.Metall Mater Trans,1995; 26A:1617 |
| [26] | Han K,Edmonds D V,Smith G.Metall Mater Trans,2001; 32A:1313 |
| [27] | Nesterov D,Levchenko N,Sapozhkov V,Shevchenko A.Steel Trans,1992; 22:191 |
| [28] | Hung C Y,Spanos G,Rosenberg R O,Kral M V.Acta Mater,2002; 50:3781 |
| [29] | Kral M V,Spanos G.Acta Mater,1999; 47:711 |
| [30] | Kral M V,Spanos G.Acta Mater,2003; 51:301 |
| [31] | Spanos G,Kral M V.Int Mater Rev,2009; 54:19 |
| [32] | Kral M V,Spanos G.Scr Mater,1997; 36:875 |
| [33] | Kral M V,Mangan M A,Spanos G,Rosenberg R O.Mater Charact,2000; 45:17 |
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%