利用电子背散射衍射技术,对激光立体成形GH4169镍基高温合金沉积态试样以及1100℃保温5和30 min水淬后试样的显微组织、晶界特点和晶体取向等进行了分析.结果表明,再结晶过程中随晶粒尺寸得到细化的同时,各晶粒的晶体取向逐渐变得随机,消除了沉积态材料中原本存在的各向异性,合金的界面特点也发生变化,大角度晶界数量逐渐增多,且再结晶后期<111>60°孪晶界大量出现,占总界面体积分数的44%,孪晶的形成对激光立体成形GH4169合金的晶粒细化起了很重要的作用;再结晶形核机制在再结晶初期以原始晶界的亚晶形核和晶界弓出机制为主,孪晶相关的晶粒细化机制是再结晶后期晶粒细化的重要机制.
参考文献
| [1] | Huang W D,Lin X,Chen J,Liu Z X,Li Y M.Laser Solid Forming.Xi'an:Northwestern Polytechnical University Press,2007:10 (黄卫东,林鑫,陈静,刘振侠,李延民.激光立体成形.西安:西北工业大学出版社,2007:10) |
| [2] | Lin X,Yang H O,Chen J,Huang W D.Acta Metall Sin,2006; 42:361 (林鑫,杨海鸥,陈静,黄卫东.金属学报,2006; 42:361) |
| [3] | Gaumann M,Bezencon C,Canalis P,Kurz W.Acta Mater,2001;49:1051 |
| [4] | Feng L P,Huang W D,Lin X,Yang H O.Chin J Nonferrous Met,2003; 13:181 (冯莉萍,黄卫东,林鑫,杨海鸥.中国有色金属学报,2003:13:181) |
| [5] | Feng L P,Huang W D,Li Y M,Yang H O,Lin X.Acta Metall Sin,2002; 38:502 (冯莉萍,黄卫东,李延民,杨海鸥,林鑫.金属学报,2002; 38:502) |
| [6] | Kobayashi K,Yamaguchi M,Hayakawa M,Kimura M.Acta Metall Sin (Eng Lett),2004; 17:345 |
| [7] | Merrick H F.Metall Mater Trans,1974; 5B:891 |
| [8] | Thompson A W,Bucci R J.Metall Mater Trans,1973; 4B:1173 |
| [9] | Yamaguchi K,Kanazawa K.MetallMater Trans,1980; 11A:1691 |
| [10] | Andersson J.Int J Fatigue,2005; 27:847. |
| [11] | Liu F C,Lin X,Yang G L,Huang C P,Chen J,Huang W D.Acta Metall Sin,2010; 46:1047 (刘奋成,林鑫,杨高林,黄春平,陈静,黄卫东.金属学报,2010; 46:1047) |
| [12] | Liu F C,Lin X,Yang G L,Song M H,Chen J,Huang W D.Rare Met,2011; 30(Spec):437 |
| [13] | Kaibyshev R,Gajnutdinova N,Valitov V.In:Gottstein G,Molodov D A eds.,Proc 1st Joint Int Conf on Recrystallization and Grain Growth.New York:Springer,2001:949 |
| [14] | Belyakov A,Miura H,Sakai T.Mater Sci Eng,1998; A255:139 |
| [15] | Humphreys F J,Hatherly M.Recrystallization and Related Annealing Phenomena.Oxford:Pergamon Press,2004:427 |
| [16] | Wang Y.PhD Dissertation,Harbin Institute of Technology,2008 (王岩.哈尔滨工业大学博士学位论文,2008) |
| [17] | Mahajan S,Pande C S,Imam M A,Rath B B.Acta Mater,1997;45:2633 |
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%