用熔融玻璃净化与循环过热相结合的方法,研究了亚偏晶Cu-25%Pb合金,Cu-37.4%Pb偏晶合金和过偏晶Cu-40%Pb(质量分数)合金过冷熔体凝固行为和凝固组织的演化规律,以及Cu-37.4%Pb偏晶合金的过冷度对磨损率的影响.研究表明:在过冷亚偏晶Cu 25%Pb合金熔体凝固过程中先形成α(Cu)初生相,随着过冷度的增大,凝固组织经历粗大枝晶重熔形成的细化枝晶向准球状晶粒演化的过程;在过冷Cu-37.4%Pb偏晶合金熔体凝固过程中初生相为L2相,当过冷度在20~150 K区间时,得到第二相S(Pb)弥散在α(Cu)枝晶间的凝固组织,并且在该过冷区间内随着过冷度的增加,材料的磨损率也逐渐降低;在过冷过偏晶Cu-40%Pb合金熔体凝固过程中初生相为L2相,在过冷度区间42~80 K时,得到以偏晶胞形式分布的凝固组织.
参考文献
| [1] | A.Inoue, N.yano, J. Metal. Sci., 22, 123(1987) |
| [2] | C.Dong, B.Wei, Scripta Materialia, 34(10), 1523(1996) |
| [3] | Y.Liu, J.J.Guo, J.Jia, Foundry, 49(1), 11(2000) |
| [4] | H.Xie, J.C.Wang, J.F.Fan, W.X.Hao, G.C.Yang, Hot Working Technology, 4, 49(2003) |
| [5] | Y.Liu, J.J.Guo, J.Jia, Y.Q.Su, H.S.Ding, Acta Metallurgica Sinica, 36(12), 1233(2000) |
| [6] | D.Y.Zhu, X.H.Yang, X.J.Han, B.B.Wei, The Chinese Journal of Nonferrous Metal, 13(2), 328(2003) |
| [7] | H.X.Zheng, Z.L.Chen, X.F.Guo, The Chinese Journal of Nonferrous Metal, 11(S2), 148(2001) |
| [8] | R.G.Duan, K.M.Liang, Journal of Southwest Jiaotong University, 33(1), 61(1998) |
| [9] | D.L.Li, G.C.Yang, R.H.Zhou, Mater. Sci. Lett., 11, 1033(1992) |
| [10] | X.F.Guo, Y.L.Lu, G.C.Yang, Chinese Journal of Material Research, 12(4), 380(1998) |
| [11] | A.Kamio, S.Kumai, H.Tezuka, Mater. Sci. and Eng., A146, 105(1991) |
| [12] | D.M.Herlach, F.Gillessen, T.Volkman, Phys. Rev. B, 46, 5203(1992) |
| [13] | B.Derby, J.J.Favier, Acta Metal., 31(7), 1123(1983) |
| [14] | JIA Jun, ZHAO Jiuzhou, GUO Jingjie, LIU Yuan, Immisible Alloys and Preparation Techniques (Harbin,Harbin Institute of Technology Press, 2002) p.5(贾均,赵九洲,郭景杰,刘源,难混溶合金及其制备技术(哈尔滨,哈尔滨工业大学出版社,2002)p.5) |
| [15] | K.Lapper, M.James, J.Chasheckina, Wear, 203/204, 46(1997) |
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%