沉淀相变晶体学模型的研究进展

金属学报, 2006, 42(4): 341-349. doi: 10.3321/j.issn:0412-1961.2006.04.002

沉淀相变晶体学模型的研究进展

1.清华大学材料科学与工程系,北京,100084

2.清华大学材料科学与工程系,北京,100084

基金项目: 中国科学院资助项目(50271035,50471012)

RESEARCH PROGRESS IN PRECIPITATION CRYSTALLOGRAPHY MODELS

相变晶体学是对工程材料进行组织设计的重要理论基础.本文综述了国内外沉淀相变晶体学模型的最新研究进展,对各个模型的使用前提、适用条件、求解思路以及自身的局限性分别进行了评述;通过比较不同模型在求解能力方面的差异,指出采用O线模型和近重位位置模型相结合的方法将为理解相变晶体学特征提供更有力的理论工具.

参考文献

[1]	Potter D A,Easterling K E.Phase Transformations in Metals and Alloys.2nd edition,London:Chapman and Hall,1992:305
[2]	Bollmann W.Crystal Defects and Crystalline Interfaces.Berlin:Springer,1970:55
[3]	Bonnet R,Durnad F.In:Proc Conf on In situ Composite,Lakeville,USA:NMAB 308-I,1973:209
[4]	Dahmen U.Scr Metall,1981; 15:77
[5]	Dahmen U.Acta Metall,1982; 30:63
[6]	Ameyama K,Weatherly G C,Aust K T.Acta Metall Mater,1992; 40:1835
[7]	Dahmen U,Ferguson P,Westmacott K H.Acta Metall,1984; 32:803
[8]	Fujii T,Mori T,Kato M.Acta Metall Mater,1992; 40:3413
[9]	Weatherly G C,Humble P,Borland D.Acta Metall,1979;27:1815
[10]	Luo C P,Dahmen U,Westmacott K H.Acta Metall Mater,1994; 42:1923
[11]	Luo C P,Weatherly G C.Philos Mag,1988; 58A:445
[12]	Lang J M,Dahmen U,Wstmacott K H.Phys State Soc,1983; 75:409
[13]	Viswanadham R K,Wert C A.J Less-Common Met,1976; 18:135
[14]	Diercks D R,Wert C A.Metall Trans,1972; 3:1699
[15]	Jack K H.Iron Steel Inst,1951; 169:26
[16]	Kato M.Mater Sci Eng,1991; A146:205
[17]	Xiao S Q,Howe J M.Acta Mater,2000; 48:3253
[18]	Luo C P,Weatherly G C.Acta Metall,1987; 35:1963
[19]	Howell P R,Southwick P D,Honeycombe R W K.J Microsc,1979; 116:151
[20]	Hall M G,Aaronson H I.Acta Metall,1986; 34:1409
[21]	Zhang W Z,Purdy G R.Acta Metall Mater,1993; 41:543
[22]	Zhang W Z,Purdy G R.Philos Mag,1993; 68A:279
[23]	Zhang W Z,Purdy G R.Philos Mag,1993,68A:291
[24]	Smith D A,Hazzledine P M.Scr Metall,1981; 15:393
[25]	Qiu D,Zhang W Z.Philos Mag,2003; 83:3093
[26]	Weatherly G C,Zhang W Z.Metall Mater Trans,1994;25A:1865
[27]	Ye F,Zhang W Z,Qiu D.Acta Mater,2004; 52:2249
[28]	Knowles K M,Smith D A.Acta Crystallogr,1982; A38:34
[29]	Bilby B A,Bullough R,de Grinberg D K.Discuss Faraday Soc,1964; 38:61
[30]	Bollmann W,Nissen H U.Acta Crystallogr,1968; A24:546
[31]	Ecob R C,Ralph B.Acta Metall,1981; 29:1037
[32]	Hall M G,Aaronson H I,Kinsma K R.Surf Sci,1972; 31:257
[33]	Rigsbee J M,Aaronson H I.Acta Metall,1979; 27:351
[34]	Russell K C,Hall M G,Kinsma K R,Aaronson H I.Metall Trans,1974; 5:1503
[35]	Furuhara T,Aaronson H I.Acta Metall Mater,1991; 39:2857-2872
[36]	Liang Q,Reynolds W T Jr.Metall Mater Trans,1998;29A:2059
[37]	Miyano N,Ameyama K,Weatherly G C.ISIJ Int,2000;40:S199
[38]	Hall M G,Furuhara T,Aaronson H I,Hirth J P.Acta Mater,2001; 49:3487
[39]	Miyano N,Ameyama K,Weatherly G C.Mater Sci Eng,2002; A333:85
[40]	Miyano N,Ameyama K,Weatherly G C.Mater Trans,2002; 43:1547
[41]	Reynolds W T Jr,Nie J F,Zhang W Z,Howe J M,Aaronson H I,Purdy G R.Scr Mater,2003; 49:405
[42]	Frank F C.Acta Metall,1953; 1:15
[43]	Fecht H J.Acta Metall Mater,1992; 40:S39
[44]	Shiflet G J,van der Merwe J H.Metall Mater Trans,1994;25A:1895
[45]	Howe J M.Interfaces in Materials.New York:John Wiley and Sons,1997:299
[46]	Howe J M.Mater Trans JIM,1998; 39:3
[47]	Kelly P M,Zhang M X.Mater Forum,1999; 23:41
[48]	Zhang M X,Kelly P M.Acta Mater,2005; 53:1073
[49]	Zhang M X,Kelly P M.Acta Mater,2005; 53:1085
[50]	Savva G C,Kirkaldy J S,Weatherly G C.Philos Mag,1997; 75A:315
[51]	Pond R C.In:Nabarro F R N ed.,Dislocations in Solids,Amsterdam:North-Holland,1989:38
[52]	Pond R C,Celotto S,Hirth J P.Acta Mater,2003; 51:5385
[53]	Ye F.Ph.D Thesis.Beijing:Tsinghua University,2004(叶飞.清华大学博士学位论文,北京,2004)

上一张下一张

计量

下载量()
访问量()

作者相关

在本站搜索
邱冬张文征
在百度学术搜索
邱冬张文征
在万方数据库搜索
邱冬张文征
在CNKI搜索
邱冬张文征

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网

沉淀相变晶体学模型的研究进展

RESEARCH PROGRESS IN PRECIPITATION CRYSTALLOGRAPHY MODELS

参考文献