Development of thermodynamic and kinetic databases in micro-soldering alloy systems and their applications

<正>Recent progress in the development of thermodynamic and kinetic databases of micro-soldering alloys,which were constructed within the framework of the Thermo-Calc and DICTRA software,was presented.Especially,a thermodynamic tool, ADAMIS(alloy database for micro-solders) was develope...

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Bibliographic Details
Published in:Progress in natural science 2011-04, Vol.21 (2), p.97-110
Main Authors: LIU, Xing-jun, WANG, Cui-ping, OHNUMA, Ikuo, KAINUMA, Ryosuke, ISHIDA, Kiyohito
Format: Article
Language:English
Subjects:
alloys
kinetics
micro-soldering
micro-soldering alloys
thermodynamics
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Summary:<正>Recent progress in the development of thermodynamic and kinetic databases of micro-soldering alloys,which were constructed within the framework of the Thermo-Calc and DICTRA software,was presented.Especially,a thermodynamic tool, ADAMIS(alloy database for micro-solders) was developed by combining the thermodynamic databases of micro-solders with Pandat,a multi-component phase diagram calculation software program.ADAMIS contains 11 elements,namely,Ag,Al,Au,Bi,Cu, In,Ni,Sb,Sn,Zn and Pb,and can handle all combinations of these elements in the whole composition range.The obtained thermodynamic and kinetic databases can not only provide much valuable thermodynamic information such as phase equilibria and phase fraction,but also shows the kinetics and the evolution of microstructures when they are combined with some appropriate software programs and models,such as the phase field method and ADSTEFAN software.From the viewpoints of computational thermodynamics and kinetics,some technical examples were given to demonstrate the great utility of these databases for the applications in the development of micro-soldering materials.These databases are expected to be powerful tools for the development of micro-solders and Cu substrate materials,as well as for promoting the understanding of interfacial phenomena and microstructure evolution between solders and substrates in electronic packaging technology.
ISSN:1002-0071
DOI:10.1016/S1002-0071(12)60042-2