金属学报  2008, Vol. 44 Issue (6): 723-728

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夹杂物/析出相尺寸对晶内铁素体形核的影响

王巍;付立铭

上海宝钢股份有限公司

Effect of the Inclusions/precipitates size on the Intragranular ferrite nucleation

wWang wei;Li－Ming Fu

上海宝钢股份有限公司

王巍; 付立铭 . 夹杂物/析出相尺寸对晶内铁素体形核的影响[J]. 金属学报, 2008, 44(6): 723-728 .
, . Effect of the Inclusions/precipitates size on the Intragranular ferrite nucleation[J]. Acta Metall Sin, 2008, 44(6): 723-728 .

摘要 参考文献 相关文章 Metrics 全文: PDF(1217 KB)   摘要: 建立了铁素体在夹杂物/析出相上形核的物理模型. 从相变形核热力学和动力学机理出发,研究了晶内铁 素体在夹杂物/析出相上的形核过程,分析了夹杂物/析出相的尺寸、界面性质等因素对晶内铁素体相变形核的影响. 结果表明,与铁素体具有较小接触角的夹杂物/析出相更有利于晶内铁素体形核. 当夹杂物与基体的界面性质一定时, 铁素体在夹杂物上形核的难易程度主要取决于夹杂物的尺寸(夹杂物的曲率半径),尺寸过小不利于铁素 体形核,尺寸过大对形核贡献较小. 对任意类型的夹杂物/析出相, 给出了其计算最优尺寸的方法, 计算结果与实 际吻合良好. 关键词 ： 晶内铁素体,  夹杂物/析出相尺寸,  形核效力     Abstract：Based on the classical nucleation theory a physical model was established to evaluate the effectiveness of intragranular ferrite nucleating at inclusions/precipitates. The influences of inclusion size, interfacial energy and contact angle on the ferrite nucleation rate were studied. Theoretical analysis indicates that the inclusions exhibiting lower contact angle with ferrite are most effective in promoting the nucleation of intragranular ferrite. Given the inclusion-matrix interfacial properties, the effectiveness of ferrite nucleation depends on the inclusion size. For arbitrary type of inclusion/precipitate, there exists an optimum size range in theory with maximum ferrite nucleation rate. The method for calculating this optimum size of inclusion was given, and the results showed a good agreement with experimental observations. Key words： intragranular ferrite    inclusion /precipitate size    nucleation effectiveness 收稿日期: 2007-10-25      ZTFLH:  TG142.1   服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 王巍 付立铭 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y2008/V44/I6/723 [1]Bhadeshia H K D H,Svensson L E.In:Cerjak H,Easter- ling K E eds.,Mathematical Modeling in Weld Phenom- ena,London:Institute of Materials,1993:109 [2]Bhadeshia H K D H,Svensson L E,Gretoft B.Acta Metall, 1985;33:127 [3]Mills A R,Thewlis G,Whiteman J A.Mater Sci Technol, 1987;3:1051 [4]Linaza M A,Romero J L,Rodr■guez-lbabe J M,Urcola J J.Scr Metall Mater,1993;29:1217 [5]Lee J L.Acta Metall,1994;42:3291 [6]Ishikawa F,Takahashi T.ISIJ Int,1995;35:1128 [7]Lee J L,Pan Y T.ISIJ Int,1995;35:1027 [8]Zhang S,Hattori N,Enomoto M,Tarui T.ISIJ Int,1996; 36:1301 [9]Zhang Z,Farrar R A.Mater Sci Technol,1996;12:237 [10]Madariaga I,Gutierrez I.Scr Mater,1997;37:1185 [11]Jones S J,Bhadeshia H K D H.Metall Mater Trans,1997; 28A:2005 [12]Lee T K,Kim H J,Kang B Y,Hwang S K.ISIJ Int,2000; 40:1260 [13]Capdevila C,Caballero F G,De Andr■s C G.Metall Mater Trans,2001;32A:1591 [14]Koseki T,Thewlis G.Mater Sci Technol,2005;21:867 [15]Ochi T,Takahashi T,Harada H.Iron Steel Maker,1989; 16(2):21 [16]Ishikawa F,Takahashi T,Ochi T.Metall Mater Trans, 1994;25A:929 [17]Cahn J W.Acta Metall,1956;4:449 [18]Clemm P J,Fisher J C.Acta Metall,1955;3:70 [19]Barritte G S.PhD Thesis,University of Cambridge,1982 [20]Ricks R A,Howell P R,Barritte G S.J Mater Sci,1982; 17:732 [21]Offerman S E,Van Dijk N H,Sietsma J,Van der Zwaag S,Lauridsen E M,Margulies L,Grigull S,Poulsen H F. Scr Mater,2004;51:937 [22]Aaronson H I,LangeⅢ,Purdy G R.Scr Mater,2004;51: 931 [23]Offerman S E,Van Dijk N H,Sietsma J,Van der Zwaag S,Lauridsen E M,Margulies L,Grigull S,Poulsen H F. Science,2002;298:1003 [24]Al-Hajeri K F,PhD Thesis,University of Pittsburgh,2005 [25]Boltachev G S,Baidakov VI G,Schmelzer Jurn W P.J Colloid Interface Sci,2003;264:228 [26]Schmelzer J W P,Gutzow I,Schmelzer Jurn J.J Colloid Interface Sci,1996;178:657 [27]Nishioka K.Phys Rev,1987;36A(10 15):84 [28]Christian J W.The Theory of Transformation in Metals and Alloys.2nd Ed.,Oxford:Pergamon Prcss Ltd.,UK, 1975:450 [29]Taylor A E.Advanced Calculus.Boston:Ginn,1955:199 [30]Christian J W.In:Cahn R W ed.,Physical Metallurgy, Amsterdam,North Holland,1977:479 [31]Tomita Y,Saito N,Tsuzuki T,Tokunaga Y,Okanoto K. ISIJ lnt,1994;34:829 [32]Liu S,Olson D L.Weld J Res,1986;65(Suppl.):139s [33]Madariaga I,Romero J L,Gutierrez I.Metall Mater Trans, 1998;29A:1003 [34]Abson D J.Weld World,1989;27(3):31 [35]Lee J L,Pan Y T.Mater Sci Eng,1991;A136:109 [1] 吴开明 . 低碳微合金钢中晶内和晶界铁素体长大动力学[J]. 金属学报, 2006, 42(6): 572-576 . [2] 朱钰如;郭曙强;徐建伦;蒋国昌;虞敌卫;潘丽英;汪钺强. X-60钢中晶内铁素体片的形成及其对焊接热影响区的作用[J]. 金属学报, 1996, 32(8): 891-89. Viewed Full text Abstract Cited   Shared      Discussed