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Licensed Unlicensed Requires Authentication Published by De Gruyter September 15, 2014

Diffusivities and atomic mobilities of an Sn–Ag–Bi–Cu–Pb melt

  • Weimin Chen , Lijun Zhang , Yong Du and Baiyun Huang

Abstract

The recently developed Arrhenius formula of a modified Sutherland equation was employed to calculate the self- and impurity diffusivities in liquid Sn, Ag, Bi, Cu and Pb. The reliability of the calculated self- and impurity diffusivities was validated by comparing the calculated diffusivities with the critically reviewed literature data. Based on the reliable tracer, intrinsic and chemical diffusivities available in the literature, the atomic mobility parameters in an Sn–Ag–Bi–Cu–Pb melt were then evaluated by the DICTRA (DIffusion-Controlled TRAnsformations) software package with the aid of the available thermodynamic description for the liquid phase. Comprehensive comparisons show that most of the measured and theoretical diffusivities in Sn–Ag–Bi–Cu–Pb melts can be reasonably reproduced by the currently obtained atomic mobilities. The atomic mobilities were further verified by comparing the model-predicted concentration profiles with the measured ones in various liquid Ag–Pb, Bi–Pb and Sn–Bi–Pb diffusion couples. Finally, the simulation of dissolution of Ag and Cu substrates into liquid solder alloys during the reflow process was performed by using the presently obtained atomic mobilities in the Sn–Ag–Bi–Cu–Pb melts.


* Correspondence address, Professor Dr. Lijun Zhang, State Key Laboratory of Powder Metallurgy, Central South University, Changsha, Hunan 410083, People's Republic of China, Tel.: +86 731 88877963, Fax: +86 731 88710855, E-mail: ;

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Received: 2013-12-22
Accepted: 2014-04-16
Published Online: 2014-09-15
Published in Print: 2014-09-15

© 2014, Carl Hanser Verlag, München

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