采用等径转角挤压(ECAP)工艺在室温下对18Ni (C-250)马氏体时效钢进行单道次冷变形.对比固溶处理试样480℃时效曲线、固溶+ECAP处理试样的460和480℃时效曲线发现,一道次ECAP变形及随后的时效处理能够使马氏体时效钢的峰值时效时间明显缩短,峰值强度提高约100 MPa.结构分析表明,ECAP态实验钢的马氏体板条宽度为100-200 nm,随后的时效过程对马氏体板条宽度影响不大,而ECAP工艺对棒状δ-Ni3Mo相析出尺寸有显著影响.统计结果表明,经4h时效处理后,固溶+480℃时效态,固溶+ECAP+480℃,460℃时效态的δ-Ni3Mo宽度(直径)分别为4,92,12.33和3.54 nm.此外,ECAP工艺还促使18Ni马氏体钢中δ-Ni3Mo相在时效后期加速分解,使强度迅速衰减.
参考文献
| [1] | ASM Handbook Committee.ASM Handbook.Volume 1,10th Ed.,Ohio:ASM International,1990:739 |
| [2] | Li X D.PhD Thesis,Harbin Institute of Technology,1993(李晓东.哈尔滨工业大学博士学位论文,1993) |
| [3] | Sha W,Guo Z.Maraging Steels:Modelling of Microstructure,Properties and Applications.Oxford:Woodhead Publishing,2009:3 |
| [4] | Roberson J A,Adair A M.Trans TMS-AIME,1969; 245:1937 |
| [5] | Baker A J,Swann P R.Trans ASM,1964; 57:1008 |
| [6] | Valiev R Z,Langdon T G.Prog Mater Sci,2006; 51:881 |
| [7] | Huang C X,Wang K,Wu S D,Zhang Z F,Li G Y,Li S X.Acta Mater,2006; 54:655 |
| [8] | Huang C X,Yang G,Wang C,Zhang Z F,Wu S D.Metall Mater Trans,2011; 42A:2061 |
| [9] | Yang G,Huang C X,Wang C,Zhang L Y,Hu C,Zhang Z F,Wu S D.Mater Sci Eng,2009; A515:199 |
| [10] | Huang C X,Yang G,Gao Y L,Wu S D,Zhang Z F.Mater Sci Eng,2008; A485:643 |
| [11] | He Y,Yang K,Kong F Y,Qu W S,Su G Y.Acta Metall Sin,2002; 38:278(何毅,杨柯,孔凡亚,曲文生,苏国跃.金属学报,2002; 38:278) |
| [12] | Yang G,Yin F.Mater Sci Forum,2010; 667-669:879 |
| [13] | Mobarake M I,Nili-Ahmadabadia M,Poorganji B,Fatehi A,Shirazi H,Furuhara T,Parsaa H,Nejad S H.Mater Sci Eng,2008; A491:172 |
| [14] | Yang M X,Yang G,Liu Z D,Wang C,Huang C X.Mater Sci Forum,2010; 667-669:421 |
| [15] | Iwahashi Y,Wang J,Horita Z,Nemoto M,Langdon T G.Scr Mater,1996; 35:143 |
| [16] | Marder J M,Marder A R.Trans ASM,1969; 62:1 |
| [17] | Tsai C K,Chu C,He C Z,Shen H W,Luo L K,Song W S,Yu W L.Acta Metall Sin,1977; 13:289(蔡其巩,朱静,何崇智,申辉旺,罗力更,宋为顺,于维乐.金属学报,1977; 13:289) |
| [18] | Ye H Q,Zou S B.Acta MetaLL Sin,1979; 15:69(叶恒强,邹三本.金属学报,1979; 15:69) |
| [19] | Tsai C K,Zhu Q,HeC Z.Acta Phys Sin,1974; 23:178(蔡其巩,朱静,何崇智,物理学报,1974; 23:178) |
| [20] | Tewari R,Mazumder S,Batra I S,Dey G K,Banerjee S.Acta Mater,2000; 48:1187 |
| [21] | Yin Z D,Li X D,Li H B,Lai Z H.Aeta Metall Sin,1995;31:7(尹钟大,李晓东,李海滨,来忠红.金属学报,1995; 31:7) |
| [22] | Yong Q L,Ma M T.Micro-alloyed Steel-Physics and Mechanics Metallurgy.Beijing:Metallurgy Industry Press,1989:315(雍岐龙,马鸣图.微合金钢——物理和力学冶金.北京:冶金工业出版社,1989:315) |
| [23] | Martin J W,Doherty R D.Translated by Li X L.Stability of Microstructure in Metallic Systems.Beijing:Science Press,1984:55(Martin J W,Doherty R D.李新立译.金属系中显微结构的稳定性.北京:科学出版社,1984:55) |
| [24] | He Y,Liu K,Yang K.Acta Metall Sin,2003; 39:381(何毅,刘凯,杨柯.金属学报,2003;39:381) |
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