OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

金属学报 2014

定向凝固过共晶合金Al-Al2Cu的组织演化及取向分析*

DOI: 10.11900/0412.1961.2013.00766, PP. 962-970

高卡,李双明,傅恒志

Keywords: 定向凝固,速率跃迁,金属间化合物AlCu相,取向

Full-Text Cite this paper Add to My Lib

Abstract:

采用恒速及跃迁减速定向凝固方法制备了Al-40%Cu(质量分数)过共晶合金,对金属间化合物初生Al2Cu相的组织及取向演化进行了研究.结果表明,当定向凝固速率恒定为10μm/s,抽拉100mm时,合金成分随着凝固距离的增大而减小,初生Al2Cu相枝晶由规则棱面V型转变为非棱面形貌,在抽拉距离80mm附近消失,其生长方向由[110]方向转变为(121)晶面的法线方向;当定向凝固速率由10μm/s跃迁减速至2μm/s时,合金成分在变速界面后随着凝固距离的增大先增大后减少,初生Al2Cu相枝晶由规则棱面V型变为非棱面长条状形貌而后消失,其体积分数先增大后减少,Al2Cu相的生长方向由[110]方向转变为平行于热流方向的[001]方向.定向凝固恒速与跃迁变速下初生Al2Cu相枝晶生长机制存在异同,凝固工艺参数成为影响枝晶最终组织形态和生长方向的主要因素.

References

[1]	Salgado-Ordorica M A, Phillion A B, Rappaz M. Metall Mater Trans, 2013; 44A: 2699
[2]	Warren J. Nat Mater, 2006; 5: 595
[3]	Haxhimali T, Karma A, Geonales F, Rappaz M. Nat Mater, 2006; 5: 660
[4]	Yan X Q, Liu S X, Long W M, Huang?J L, Zhang?L Y, Chen Y. Mater Des, 2013; 45: 440
[5]	Sharma C,?Dwivedi D K, Kumar P. Mater Des, 2013; 43: 136
[6]	Sass V, Glatzel U, Feller-Kniepmeier M. Acta Mater, 1996; 44: 1969
[7]	Du Y Z,?Zheng M Y,?Xu C, Qiao?X G, Wu K,?Liu X D,?Wang G J,?Lv X Y. Mater Sci Eng, 2013; A576: 10
[8]	Matsunawa A, Katayama S, Simidzu H. Trans Joining Weld Res Inst, 1990; 19: 71
[9]	Asta M, Beckermann C, Karma A, Kurz W, Napolitano R, Plapp M, Purdy G, Rappaz M, Trivedi R. Acta Mater, 2009; 57: 942
[10]	Zhu W W, Ren Z M. Mater Sci Eng, 2006; A441: 185
[11]	Yilmaz F, Elliott R. J Cryst Growth, 1984; 66: 466
[12]	Quan Q R, Li S M, Fu H Z. Acta Metall Sin, 2010; 46: 500 (全琼蕊, 李双明, 傅恒志. 金属学报, 2010; 46: 500)
[13]	Gao K, Li S M, Fu H Z. Adv Mater Lett, 2011; 2: 369
[14]	Massalski T B, Okamoto H, Subramanian P R, Kacprzak L. Binary Alloy Phase Diagrams. 2nd Ed., Materials Park, Ohio: ASM International Publications, 1990: 141
[15]	Zhao P, Li S M, Fu H Z. Acta Metall Sin, 2012; 48: 35 (赵朋, 李双明, 傅恒志. 金属学报, 2012; 48: 35)
[16]	Ting L, Li S M, Fu H Z. Rare Met Mater Eng, 2007; 36: 617 (唐玲, 李双明, 傅恒志. 稀有金属材料与工程, 2007; 36 : 617 )
[17]	Jackson K A, Hunt J D. Trans Metall Soc AIME, 1966; 236: 1129
[18]	Li X, Ren Z, Fautrelle Y, Zhang Y D, Esling C. Acta Mater, 2010; 58: 1409
[19]	Li X, Ren Z, Fautrelle Y. Acta Mater, 2006; 54: 5353
[20]	Sun Z, Zhang L, Guo M, Vleugels J, Van der Biest O, Blanpain B. Europhys Lett, 2010; 89: 64002
[21]	Kraft R W, Albright D L. Tran Metall Soc AIME, 1961; 221: 97
[22]	Hamar R, Lemaignan C. J Cryst Growth, 1981; 53: 587.
[23]	Fu H Z, Guo J J, Liu L, Li J S. Directional Solidification and Processing of Advanced Materials. Beijing: Science Press, 2008: 594 (傅恒志, 郭景杰, 刘林 , 李金山. 先进材料定向凝固. 北京: 科学出版社, 2008: 594)
[24]	Stefanescu D M. Science and Engineering of Casting Solidification. 2nd Ed., Berlin: Springer, 2009: 176
[25]	Dai F P, Wei B B. Sci China, 2009; 39G: 1544 (代富平, 魏炳波. 中国科学, 2009; 39G: 1544)
[26]	Gao K, Li S M, Xu L, Fu H Z. Cryst Res Technol, 2014; 49: 167

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133