Determination of the surface tension of liquid Fe77.5Cu 13Mo9.5 ternary monotectic alloy

Hai Peng Wang; Jian Chang; Bing Chi Luo; Bing Bo Wei

doi:10.1088/0256-307X/24/2/056

Determination of the surface tension of liquid Fe_77.5Cu ₁₃Mo_9.5 ternary monotectic alloy

Hai Peng Wang, Jian Chang, Bing Chi Luo, Bing Bo Wei

School of Physical Science and Technology

Northwestern Polytechnical University Xian

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

2 Scopus citations

Abstract

Thermophysical properties of undercooled liquid monotectic alloys are usually difficult to be determined because of the great difficulty in achieving large undercoolings. We measure the surface tension of liquid Fe _77.5Cu₁₃Mo_9.5 monotectic alloy by an electromagnetic oscillating drop method over a wide temperature range from 1577 to 1784 K, including both superheated and undercooled states. A good linear relationship exists between the surface tension and temperature. The surface tension value is 1.588 N/m at the monotectic temperature of 1703 K, and its temperature coefficient is -3.7 × 10^-4 Nm^-1K ^-1. Based on the Butler equation, the surface tension is also calculated theoretically. The experimental and calculated results indicate that the effect of the enriched element on droplet surface is much more conspicuous than the other elements to decrease the surface tension.

Original language	English
Article number	056
Pages (from-to)	504-507
Number of pages	4
Journal	Chinese Physics Letters
Volume	24
Issue number	2
DOIs	https://doi.org/10.1088/0256-307X/24/2/056
State	Published - 1 Feb 2007

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title = "Determination of the surface tension of liquid Fe77.5Cu 13Mo9.5 ternary monotectic alloy",

abstract = "Thermophysical properties of undercooled liquid monotectic alloys are usually difficult to be determined because of the great difficulty in achieving large undercoolings. We measure the surface tension of liquid Fe 77.5Cu13Mo9.5 monotectic alloy by an electromagnetic oscillating drop method over a wide temperature range from 1577 to 1784 K, including both superheated and undercooled states. A good linear relationship exists between the surface tension and temperature. The surface tension value is 1.588 N/m at the monotectic temperature of 1703 K, and its temperature coefficient is -3.7 × 10-4 Nm-1K -1. Based on the Butler equation, the surface tension is also calculated theoretically. The experimental and calculated results indicate that the effect of the enriched element on droplet surface is much more conspicuous than the other elements to decrease the surface tension.",

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T1 - Determination of the surface tension of liquid Fe77.5Cu 13Mo9.5 ternary monotectic alloy

AU - Wang, Hai Peng

AU - Chang, Jian

AU - Luo, Bing Chi

AU - Wei, Bing Bo

PY - 2007/2/1

Y1 - 2007/2/1

N2 - Thermophysical properties of undercooled liquid monotectic alloys are usually difficult to be determined because of the great difficulty in achieving large undercoolings. We measure the surface tension of liquid Fe 77.5Cu13Mo9.5 monotectic alloy by an electromagnetic oscillating drop method over a wide temperature range from 1577 to 1784 K, including both superheated and undercooled states. A good linear relationship exists between the surface tension and temperature. The surface tension value is 1.588 N/m at the monotectic temperature of 1703 K, and its temperature coefficient is -3.7 × 10-4 Nm-1K -1. Based on the Butler equation, the surface tension is also calculated theoretically. The experimental and calculated results indicate that the effect of the enriched element on droplet surface is much more conspicuous than the other elements to decrease the surface tension.

AB - Thermophysical properties of undercooled liquid monotectic alloys are usually difficult to be determined because of the great difficulty in achieving large undercoolings. We measure the surface tension of liquid Fe 77.5Cu13Mo9.5 monotectic alloy by an electromagnetic oscillating drop method over a wide temperature range from 1577 to 1784 K, including both superheated and undercooled states. A good linear relationship exists between the surface tension and temperature. The surface tension value is 1.588 N/m at the monotectic temperature of 1703 K, and its temperature coefficient is -3.7 × 10-4 Nm-1K -1. Based on the Butler equation, the surface tension is also calculated theoretically. The experimental and calculated results indicate that the effect of the enriched element on droplet surface is much more conspicuous than the other elements to decrease the surface tension.

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Determination of the surface tension of liquid Fe_77.5Cu ₁₃Mo_9.5 ternary monotectic alloy

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