Thermophysical properties of Ni-5% Sn alloy melt

Fuping Dai; Chongde Cao; Bingbo Wei

doi:10.1007/s11433-006-0236-7

Thermophysical properties of Ni-5% Sn alloy melt

Fuping Dai, Chongde Cao, Bingbo Wei

School of Physical Science and Technology

Northwestern Polytechnical University Xian

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

9 Scopus citations

Abstract

The surface tension and specific heat of Ni-5%Sn alloy melt were measured by the oscillating drop method and the drop calorimetric method using electromagnetic levitation, respectively. The temperature coefficient of surface tension is 6.43 × 10^-4 N · m^-1K^-1 within the temperature regime of 1464-1931 K. The enthalpy change was measured in the temperature range from 1461 to 1986 K, and the average specific heat was obtained as 43.03 J · mol^-1K^-1. Some other thermophysical properties, such as viscosity, solute diffusion coefficient, density, thermal diffusivity and thermal conductivity of this alloy melt, were derived based on the experimentally measured surface tension and specific heat. Using these thermophysical parameters, the relation between solute trapping and undercooling in rapidly solidified a-Ni was calculated, and the theoretical prediction shows a good agreement with experimental data.

Original language	English
Pages (from-to)	236-245
Number of pages	10
Journal	Science in China, Series G: Physics, Mechanics and Astronomy
Volume	49
Issue number	2
DOIs	https://doi.org/10.1007/s11433-006-0236-7
State	Published - Apr 2006

Keywords

Melt alloy
Specific heat
Surface tension
Thermophysical properties
Undercooling

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10.1007/s11433-006-0236-7

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title = "Thermophysical properties of Ni-5% Sn alloy melt",

abstract = "The surface tension and specific heat of Ni-5%Sn alloy melt were measured by the oscillating drop method and the drop calorimetric method using electromagnetic levitation, respectively. The temperature coefficient of surface tension is 6.43 × 10-4 N · m-1K-1 within the temperature regime of 1464-1931 K. The enthalpy change was measured in the temperature range from 1461 to 1986 K, and the average specific heat was obtained as 43.03 J · mol-1K-1. Some other thermophysical properties, such as viscosity, solute diffusion coefficient, density, thermal diffusivity and thermal conductivity of this alloy melt, were derived based on the experimentally measured surface tension and specific heat. Using these thermophysical parameters, the relation between solute trapping and undercooling in rapidly solidified a-Ni was calculated, and the theoretical prediction shows a good agreement with experimental data.",

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T1 - Thermophysical properties of Ni-5% Sn alloy melt

AU - Dai, Fuping

AU - Cao, Chongde

AU - Wei, Bingbo

PY - 2006/4

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N2 - The surface tension and specific heat of Ni-5%Sn alloy melt were measured by the oscillating drop method and the drop calorimetric method using electromagnetic levitation, respectively. The temperature coefficient of surface tension is 6.43 × 10-4 N · m-1K-1 within the temperature regime of 1464-1931 K. The enthalpy change was measured in the temperature range from 1461 to 1986 K, and the average specific heat was obtained as 43.03 J · mol-1K-1. Some other thermophysical properties, such as viscosity, solute diffusion coefficient, density, thermal diffusivity and thermal conductivity of this alloy melt, were derived based on the experimentally measured surface tension and specific heat. Using these thermophysical parameters, the relation between solute trapping and undercooling in rapidly solidified a-Ni was calculated, and the theoretical prediction shows a good agreement with experimental data.

AB - The surface tension and specific heat of Ni-5%Sn alloy melt were measured by the oscillating drop method and the drop calorimetric method using electromagnetic levitation, respectively. The temperature coefficient of surface tension is 6.43 × 10-4 N · m-1K-1 within the temperature regime of 1464-1931 K. The enthalpy change was measured in the temperature range from 1461 to 1986 K, and the average specific heat was obtained as 43.03 J · mol-1K-1. Some other thermophysical properties, such as viscosity, solute diffusion coefficient, density, thermal diffusivity and thermal conductivity of this alloy melt, were derived based on the experimentally measured surface tension and specific heat. Using these thermophysical parameters, the relation between solute trapping and undercooling in rapidly solidified a-Ni was calculated, and the theoretical prediction shows a good agreement with experimental data.

KW - Melt alloy

KW - Specific heat

KW - Surface tension

KW - Thermophysical properties

KW - Undercooling

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JO - Science in China, Series G: Physics, Mechanics and Astronomy

JF - Science in China, Series G: Physics, Mechanics and Astronomy

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Thermophysical properties of Ni-5% Sn alloy melt

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