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Acta Metall Sin  2007, Vol. 43 Issue (3): 286-290     DOI:
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INVESTIGATION ON DIFFUSION OF CARBON ATOMS AND STABILITY OF DEFORMATION INDUCED FERRITE IN A LOW CARBON STEEL
ZHAO Heshan; LI Dianzhong; LIU Zhaoxia; LI Yiyi
Institute of Metal Research; Chinese Academy of Sciences; Shenyang 110016
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ZHAO Heshan; LI Dianzhong; LIU Zhaoxia; LI Yiyi. INVESTIGATION ON DIFFUSION OF CARBON ATOMS AND STABILITY OF DEFORMATION INDUCED FERRITE IN A LOW CARBON STEEL. Acta Metall Sin, 2007, 43(3): 286-290 .

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Abstract  A series of Deformation Induced Ferrite Transformation (DIFT) tests are investigated by using Gleeble-3500 hot simulation test machine. The time-stress curve shows that the time of transformation is so short that the diffusion of carbon atoms is not sufficient; the results of EPM (Electron Probe Micro Analyzer) also show that the carbon concentration of DIF (Deformed Induced Ferrite) is far higher than that of conventional ferrite, which combining with the SEM observation indicates that DIF is a kind of transitional phase in quasi-stable state. Therefore, DIF will precipitate the super-saturated carbon from the inner grain and finally transformed to stable ferrite phase during the process of tempering and its hardness will decrease simultaneously.
Key words:  deformation induced transformation      low carbon steel      
Received:  30 August 2006     
ZTFLH:  TG111.6  
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ZHAO Heshan
LI Dianzhong
LIU Zhaoxia
LI Yiyi

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[1]Yang Z M,Wang R Z.ISIJ Int,2003;43:761
[2]Priestner R,Hodgson P D.Mater Sci Technol,1992;8: 849
[3]Matsumura Y,Yada H.Trans Iron Steel Inst Jpn,1987; 27:492
[4]Hodgson P D,Hickson M R,Gibbs R K.Set Mater,1999; 40:1179
[5]Hurley P J,Hodgson P D,Muddle B C.Scr Mater, 1999;40:433
[6]Hodgson P D,Hickson M R,Gibbs R K.Mater Sci ??Forum,1998;284:63
[7]Choo W Y,Kor J.Inst Met Mater,1998;36:1966
[8]Hong S C,Lim S H,Lee K J,Shin D H,Lee K S.ISIJ Int,2003;43:394
[9]Hong S C,Lee K S.Mater Sci Eng,2002;A323:143
[10]Li C M,Yada H,Yamagata H.ISIJ Int,1999;39:209
[11]Hickson M R,Gibbs R K,Hodgson P D.ISIJ Int,1999; 39:1176
[12]Yang W Y,Qi J J,Sun Z Q,Yang P.Acta Metall Sin, 2004;40:135 (杨王玥,齐俊杰,孙祖庆,杨平.金属学报,2004;40:135)
[13]Liu Z X,Tong M M,Huang C J,Li D Z.Acta Metall Sin, 2004;40:930 (刘朝霞,佟铭明,黄成江,李殿中.金属学报,2004;40:930)
[14]Christian J W.The Theory of Transformations in Metal and Alloys.Oxford:Pergamon,1981
[15]Hillert M.Metall Trans,1975;6A:5
[16]Lan Y J.Ph.D Theses,Institute of Metal Research,Chi- nese Academy of Sciences,Shenyang,2005: (兰勇军.中国科学院金属研究所博士学位论文,沈阳,2005)
[17]Weng Y Q.Ultrafine Grained Steel.Beijing:Metallurgical Industry Press,2003:119 (翁宇庆.超细晶钢.北京:冶金工业出版社,2003:119)
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