Surface tension and its temperature coefficient of liquid Sn-X (X=Ag, Cu) alloys

Joonho Lee; Wataru Shimoda; Toshihiro Tanaka

doi:10.2320/matertrans.45.2864

Surface tension and its temperature coefficient of liquid Sn-X (X=Ag, Cu) alloys

Joonho Lee, Wataru Shimoda, Toshihiro Tanaka

Research output: Contribution to journal › Article › peer-review

115 Citations (Scopus)

Abstract

The surface tension of liquid Sn-X (X=Ag, Cu) alloys was measured by the constrained drop method in the temperatures between 700 and 1500 K across whole composition range. Surface tension of the alloys increased with the content of Ag and Cu, and the temperature coefficient of the surface tension (dσ/dT) had both positive and negative values. Experimental results were compared with the calculated results based on Butler's model. The calculated results reasonably accorded with the measurements. The effect of thermo-physical parameters on the surface tension and the temperature coefficient were examined using the model. It was found that the temperature coefficient increases as the difference in the surface tension of component metals or the excess free energy increases in the high composition range of the component metal having higher surface tension, because of the surface enhancement of the other component metal.

Original language	English
Pages (from-to)	2864-2870
Number of pages	7
Journal	Materials Transactions
Volume	45
Issue number	9
DOIs	https://doi.org/10.2320/matertrans.45.2864
Publication status	Published - 2004 Sept
Externally published	Yes

Keywords

Large drop method
Liquid tin-copper alloys
Liquid tin-silver alloys
Metal
Surface tension
Temperature coefficient

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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Cite this

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abstract = "The surface tension of liquid Sn-X (X=Ag, Cu) alloys was measured by the constrained drop method in the temperatures between 700 and 1500 K across whole composition range. Surface tension of the alloys increased with the content of Ag and Cu, and the temperature coefficient of the surface tension (dσ/dT) had both positive and negative values. Experimental results were compared with the calculated results based on Butler's model. The calculated results reasonably accorded with the measurements. The effect of thermo-physical parameters on the surface tension and the temperature coefficient were examined using the model. It was found that the temperature coefficient increases as the difference in the surface tension of component metals or the excess free energy increases in the high composition range of the component metal having higher surface tension, because of the surface enhancement of the other component metal.",

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AU - Shimoda, Wataru

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N2 - The surface tension of liquid Sn-X (X=Ag, Cu) alloys was measured by the constrained drop method in the temperatures between 700 and 1500 K across whole composition range. Surface tension of the alloys increased with the content of Ag and Cu, and the temperature coefficient of the surface tension (dσ/dT) had both positive and negative values. Experimental results were compared with the calculated results based on Butler's model. The calculated results reasonably accorded with the measurements. The effect of thermo-physical parameters on the surface tension and the temperature coefficient were examined using the model. It was found that the temperature coefficient increases as the difference in the surface tension of component metals or the excess free energy increases in the high composition range of the component metal having higher surface tension, because of the surface enhancement of the other component metal.

AB - The surface tension of liquid Sn-X (X=Ag, Cu) alloys was measured by the constrained drop method in the temperatures between 700 and 1500 K across whole composition range. Surface tension of the alloys increased with the content of Ag and Cu, and the temperature coefficient of the surface tension (dσ/dT) had both positive and negative values. Experimental results were compared with the calculated results based on Butler's model. The calculated results reasonably accorded with the measurements. The effect of thermo-physical parameters on the surface tension and the temperature coefficient were examined using the model. It was found that the temperature coefficient increases as the difference in the surface tension of component metals or the excess free energy increases in the high composition range of the component metal having higher surface tension, because of the surface enhancement of the other component metal.

KW - Large drop method

KW - Liquid tin-copper alloys

KW - Liquid tin-silver alloys

KW - Metal

KW - Surface tension

KW - Temperature coefficient

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DO - 10.2320/matertrans.45.2864

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Surface tension and its temperature coefficient of liquid Sn-X (X=Ag, Cu) alloys

Abstract

Keywords

ASJC Scopus subject areas

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