Effect of Brownian Coagulation on the Liquid-liquid Decomposition in Gas-atomized Alloy Drops 被引量：2

Effect of Brownian Coagulation on the Liquid-liquid Decomposition in Gas-atomized Alloy Drops

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摘要 Modeling and simulation have been carried out for Al-Pb alloys to investigate the Brownian coagulation effect on the microstructure development in a gas-atomized drop during the liquid-liquid decomposition. The results indicate that Brownian coagulation has a weak effect on the nucleation and a relatively strong effect on coarsening the minority phase droplets. The influence of Brownian coagulation on the liquid-liquid decomposition decreases with the increase in the diameter （or the decrease in the cooling rate） of the atomized drop. Modeling and simulation have been carried out for Al-Pb alloys to investigate the Brownian coagulation effect on the microstructure development in a gas-atomized drop during the liquid-liquid decomposition. The results indicate that Brownian coagulation has a weak effect on the nucleation and a relatively strong effect on coarsening the minority phase droplets. The influence of Brownian coagulation on the liquid-liquid decomposition decreases with the increase in the diameter （or the decrease in the cooling rate） of the atomized drop.

作者 Jiuzhou ZHAO Lingling GAO Jie HE L.Ratke

机构地区 Institute of Metal Research The Institute for Space Simulation

出处《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2006年第3期321-323,共3页 材料科学技术（英文版）

基金 The authors gratefully acknowledge the financial support from the National Natural Science Foundation （NNSF） of China and the International Cooperation Key Project of NNSF of China （Nos. 50395104, 50271076 and 50371092） the Natural Science Foundation of Liaoning Province （20050047）.

关键词 Immiscible alloy Rapid solidification ATOMIZATION Brownian coagulation Modeling Immiscible alloy Rapid solidification Atomization Brownian coagulation Modeling

分类号 TG132.32 [一般工业技术—材料科学与工程]

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参考文献17

1[1]J.Rogers and R.Davis:Metall.Trans.,1990,A21,59.
2[2]L.Ratke and J.Colliod:Interface Sci.,1987,119,391.
3[3]Jiuzhou ZHAO Jingjie GUO,Jun JIA and Qingchun LI:Trans.Nonferrous Met.Soc.China,1995,5(2),85.(in Chinese)
4[4]L.Ratke and S.Diefenbach:Mater.Sci.Eng.,1995,R15,263.
5[5]T.Berrenberg and P.R.Sahm:Z.Metallkd.,1996,87,187.
6[6]J.Z.Zhao,S.Drees and L.Ratke:Mater.Sci.Eng.,2000,282A,262.
7[7]M.Kolbe,C.D.Cao,X.Y.Lu,P.K.Galenko,B.B.Wei and D.M.Herlach:Mater.Sci.Eng.,2004,A375-77,520.
8[8]Guiyun CHEN,Chong TIAN,Lin YANG,Jiuzhou ZHAO,Yongchang ZHANG and Hengqiang YE:Chin.J.Mech.Eng.,2002,38(8),139.(in Chinese)
9[9]G.B.Rudrakshi,V.C.Srivastava,J.P.Pathak and S.N.Ojha:Mater.Sci.Eng.,2004,A383,30.
10[10]J.J.Guo,Y.Liu,J.Jia,Y.Q.Su,H.S.Ding,J.Z.Zhao and X.Xue:Scripta Mater.,2001,45,1197.

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Effect of Brownian Coagulation on the Liquid-liquid Decomposition in Gas-atomized Alloy Drops 被引量：2

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