Journal ArticleDOI
A Calorimetric investigation of liquid gold-tin alloys
A.K Jena,A.K Jena,J.S.Li Leach +2 more
TLDR
In this paper, relative partial and integral enthalpies and heat capacities have been calculated from the experimental data, in terms of the nature and strength of the bonds in the liquid alloys.About:
This article is published in Acta Metallurgica.The article was published on 1966-11-01. It has received 39 citations till now. The article focuses on the topics: Tin & Calorimeter.read more
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Empirical description of the role of electronegativity in alloy formation
TL;DR: In this article, it was shown that the heat of formation of metallic binary alloy systems is predominantly determined by the electronegativity difference, the difference in electronic density at the boundary of the atomic cell and the size difference.
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AuSn alloy phase diagram and properties related to its use as a bonding medium
TL;DR: In this paper, the authors reviewed a large number of publications on the AuSn system and summarized the important properties and further enhanced the development of new Au-sn bonding methods as a result of an overall understanding of oxidation and diffusion properties.
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Thermodynamic modeling of the Au-In-Sn system
TL;DR: The phase diagram of the Au-In-Sn system is of importance in developing materials of high performance in electronic packaging as well as in simulating the interfacial reaction between Sn-In and Au as mentioned in this paper.
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Heats of Mixing in Liquid Copper or Gold Binary Alloys
Kimio Itagaki,Akira Yazawa +1 more
References
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The electronic properties of liquid metals
TL;DR: In this article, the density of states and mean free path from a direct approach to Schrodinger's equation were obtained for liquid metal properties, and the difficulty of explaining the phenomena by methods which are orthodox in solid state physics is pointed out and some simple models suited to liquids are described and compared.
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A “sub-regular” solution model and its application to some binary alloy systems
TL;DR: In this paper, the authors examined the thermodynamic properties of binary solutions whose excess free energy of solution is given by ΔF = A 1 x 2 y + A 2 xy 2 + RT (x ln x + y ln y) where x and y are the atomic fractions; the model may be termed a sub-regular solution.