采用定向凝固方法研究不同试样尺寸对Al-4%Cu合金凝固固/液界面特征的影响.结果表明:当凝固速率v=1 μm/s时,小尺寸试样的平界面更加平直;当v=5 μm/s时,随着试样尺寸的增大,界面形态分别为浅胞-深胞一初始枝晶,同时,试样边缘的组织比中心的组织更不稳定;在相同凝固速率下,小尺寸试样的温度梯度较大,促使界面稳定性提高;试样尺寸的增大引起径向温差增大,促进溶质流动,使试样边缘产生溶质富集,从而使平界面弯曲;由于试样中心排出的溶质大部分流向界面前沿糊状区的液相中,而枝晶糊状区的液相比胞晶的多,因而形成的枝晶界面弯曲程度比胞晶的小.
参考文献
| [1] | WU M;LUDWIG A .Modeling equiaxed solidification with melt convection and grain sedimentation-Ⅰ:Model description[J].Acta Materialia,2009,57:5621-5631. |
| [2] | STELIAN C;DUFFAR T .Modeling of thermosolutal convection during Bridgrnan solidification of semiconductor alloys in relation with experiments[J].Journal of Crystal Growth,2004,266:190-199. |
| [3] | Lan CW.;Tu CY. .Morphological instability due to double diffusive convection in directional solidification: the pit formation[J].Journal of Crystal Growth,2000(4):619-630. |
| [4] | Moelans, N;Blanpain, B;Wollants, P .An introduction to phase-field modeling of microstructure evolution[J].Calphad,2008(2):268-294. |
| [5] | Darning Li;Ruo Li;Pingwen Zhang .A cellular automaton technique for modelling of a binary dendritic growth with convection[J].Applied mathematical modelling,2007(6):971-982. |
| [6] | Li X;Fautrelle Y;Ren ZM .Influence of an axial high magnetic field on the liquid-solid transformation in Al-Cu hypoeutectic alloys and on the microstructure of the solid[J].Acta materialia,2007(4):1377-1386. |
| [7] | Xi Li;Annie Gagnoud;Zhongming Ren .Investigation of thermoelectric magnetic convection and its effect on solidification structure during directional solidification under a low axial magnetic field[J].Acta materialia,2009(7):2180-2197. |
| [8] | R. TRIVEDI;P. MAZUMDER;S.N. TEWARI .The Effect of Convection on Disorder in Primary Cellular and Dendritic Arrays[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2002(12):3763-3775. |
| [9] | TRIVEDI R;MIYAHARA H;MAZUMDER.P;SIMSEK E,TEWARI S N .Directional solidification microstroctures in diffusive and convective regimes[J].Journal of Crystal Growth,2001,222:365-379. |
| [10] | JAMGOTCHIAN H;THI H N;BERGEON N;BILLIA B .Double-diffusive convection modes and induced microstructure localization during solidification of binary alloys[J].International Journal of Thermal Sciences,2004,43:769-777. |
| [11] | Thi HN;Dabo Y;Drevet B;Dupouy MD;Camel D;Billia B;Hunt JD;Chilton A .Directional solidification of Al-1.5 wt% Ni alloys under diffusion transport in space and fluid-flow localisation on earth[J].Journal of Crystal Growth,2005(2/4):654-668. |
| [12] | TRIVEDI R;LIU S;MAZUMDER P;SIMSEK E .Microstructure development in the directionally solidified Al-4.0wt%Cu alloy system[J].Science and Technology of Advanced Materials,2001,2:309-320. |
| [13] | Liu S;Li J;Lee J;Trivedi R .Spatio-temporal microstructure evolution in directional solidification processes[J].Philosophical magazine: structure and properties of condensed matter,2006(24):3717-3738. |
| [14] | J. Teng;S. Liu;R. Trivedi .Onset of sidewise instability and cell-dendrite transition in directional solidification[J].Acta materialia,2009(12):3497-3508. |
| [15] | QU Min,LIU Lin,TANG Feng-tao,ZHANG Jun,FU Heng-zhi.Effect of sample diameter on primary dendrite spacing of directionally solidified Al-4%Cu alloy[J].中国有色金属学会会刊(英文版),2009(01):1-8. |
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%