M963合金的凝固顺序为:L→L+γ→L+(γ′+MC)+γ→(γ+γ′)+(γ+MC)+γ→(γ+γ′)+(γ+MC)+γ+γ′;凝固组织呈树枝状结构,由γ固溶体基体、γ′析出相及分布在枝晶间区的骨架状MC碳化物和(γ+γ′)共晶组成;碳降低合金的液相线温度和(γ+γ′)共晶温度,提高MC碳化物的形成温度,增加MC碳化物的体积分数,降低(γ+γ′)共晶的体积分数;高熔点元素W和Co在枝晶干偏聚,Al,Ti,Nb,Cr和Mo在枝晶间偏聚.
参考文献
| [1] | Yuan C, Sun X F, Yin F S, Guan H R, Hu Z Q, Zheng Q,Yu Y. J mater Sci Technol, 2001; 17:425 |
| [2] | Yin F S Sun X F, Li Y B, Yu Y, Zhen Q, Guan H R, Hu Z Q. Acta Metall Sin, 2003; 39:75(殷凤仕,孙晓峰,李耀彪,于洋,郑启,管恒荣,胡壮麒金属学报,2003;39:75) |
| [3] | Li Y B, Sun X F, Zhang C Z, Yin F S, Zheng Q, Hou G C, Yu Y. Mater Mech Eng, in press(李耀彪,孙晓峰,张承忠,殷凤仕,郑启,侯贵臣,于洋机械工程材料,待发表) |
| [4] | Burton C J. Proceedings of the Third International Symposium on Superalloys. Baton Rouge: Claitor Publishing,1976:147 |
| [5] | Ouichou L, Lavaud F, Lesoult G. Proceedings of the Fourth International Symposium on Superalloys. New York: American Society for Metals. 1980:235 |
| [6] | Sponseller D L. Superalloys 1996. New York: The Minerals, Metals & Materials Society, 1996:259 |
| [7] | Zou J, Wang H P, Doherty R, Perry E M. Superalloys 1992. New York: The Minerals, Metals & Materials Society, 1992:165 |
| [8] | Yukawa N, Murata Y, Noda T. In: Gell M, Radvich J F eds, Superalloys 1984, Proceedings of the Fifth International Symposium on Superalloys, New York: Metallurgical Society of AIME, 1984:83 |
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%