Surface tension of superheated and undercooled liquid Co-Si alloy

H. P. Wang; W. J. Yao; C. D. Cao; B. Wei

doi:10.1063/1.1808880

Surface tension of superheated and undercooled liquid Co-Si alloy

H. P. Wang, W. J. Yao, C. D. Cao, B. Wei

School of Physical Science and Technology

Northwestern Polytechnical University Xian

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

21 Scopus citations

Abstract

The surface tension of superheated and undercooled liquid Co 25 wt.% Si alloy was measured by an electromagnetic oscillating drop method. The experimental temperature regime was from 1384 to 2339 K and a maximum undercooling of 223 K (0.14 T_L) was achieved. The surface tension of liquid Co 25 wt.% Si alloy is 1.604 Nm^-1 at the liquidus temperature of 1607 K, and its temperature coefficient is -4.0 × 10^-4 Nm^-1K^-1. On the basis of previous research results of pure Co and Si, an expression is developed to predict the surface tension of binary Co-Si alloy system. The other thermophysical properties, such as the viscosity, the solute diffusion coefficient, and the density of liquid Co 25 wt.% Si alloy are also derived by the relevant theoretical models.

Original language	English
Pages (from-to)	3414-3416
Number of pages	3
Journal	Applied Physics Letters
Volume	85
Issue number	16
DOIs	https://doi.org/10.1063/1.1808880
State	Published - 18 Oct 2004

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abstract = "The surface tension of superheated and undercooled liquid Co 25 wt.% Si alloy was measured by an electromagnetic oscillating drop method. The experimental temperature regime was from 1384 to 2339 K and a maximum undercooling of 223 K (0.14 TL) was achieved. The surface tension of liquid Co 25 wt.% Si alloy is 1.604 Nm-1 at the liquidus temperature of 1607 K, and its temperature coefficient is -4.0 × 10-4 Nm-1K-1. On the basis of previous research results of pure Co and Si, an expression is developed to predict the surface tension of binary Co-Si alloy system. The other thermophysical properties, such as the viscosity, the solute diffusion coefficient, and the density of liquid Co 25 wt.% Si alloy are also derived by the relevant theoretical models.",

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AU - Wang, H. P.

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N2 - The surface tension of superheated and undercooled liquid Co 25 wt.% Si alloy was measured by an electromagnetic oscillating drop method. The experimental temperature regime was from 1384 to 2339 K and a maximum undercooling of 223 K (0.14 TL) was achieved. The surface tension of liquid Co 25 wt.% Si alloy is 1.604 Nm-1 at the liquidus temperature of 1607 K, and its temperature coefficient is -4.0 × 10-4 Nm-1K-1. On the basis of previous research results of pure Co and Si, an expression is developed to predict the surface tension of binary Co-Si alloy system. The other thermophysical properties, such as the viscosity, the solute diffusion coefficient, and the density of liquid Co 25 wt.% Si alloy are also derived by the relevant theoretical models.

AB - The surface tension of superheated and undercooled liquid Co 25 wt.% Si alloy was measured by an electromagnetic oscillating drop method. The experimental temperature regime was from 1384 to 2339 K and a maximum undercooling of 223 K (0.14 TL) was achieved. The surface tension of liquid Co 25 wt.% Si alloy is 1.604 Nm-1 at the liquidus temperature of 1607 K, and its temperature coefficient is -4.0 × 10-4 Nm-1K-1. On the basis of previous research results of pure Co and Si, an expression is developed to predict the surface tension of binary Co-Si alloy system. The other thermophysical properties, such as the viscosity, the solute diffusion coefficient, and the density of liquid Co 25 wt.% Si alloy are also derived by the relevant theoretical models.

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Surface tension of superheated and undercooled liquid Co-Si alloy

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