Surface tension of undercooled liquid cobalt

W. J. Yao; X. J. Han; M. Chen; B. Wei; Z. Y. Guo

doi:10.1088/0953-8984/14/32/307

Surface tension of undercooled liquid cobalt

W. J. Yao, X. J. Han, M. Chen, B. Wei, Z. Y. Guo

物理科学与技术学院

科研成果: 期刊稿件 › 文章 › 同行评审

37 引用（Scopus）

摘要

This paper provides the results on experimentally measured and numerically predicted surface tensions of undercooled liquid cobalt. The experiments were performed by using the oscillation drop technique combined with electromagnetic levitation. The simulations are carried out with the Monte Carlo (MC) method, where the surface tension is predicted through calculations of the work of cohesion, and the interatomic interaction is described with an embedded-atom method. The maximum undercooling of the liquid cobalt is reached at 231 K (0.13T_m) in the experiment and 268 K (0.17T_m) in the simulation. The surface tension and its relationship with temperature obtained in the experiment and simulation are σ^exp = 1.93 - 0.000 33 (T - T_m) N m^-1 and σ^cal = 2.26 - 0.000 32 (T - T_m) N m^-1 respectively. The temperature dependence of the surface tension calculated from the MC simulation is in reasonable agreement with that measured in the experiment.

源语言	英语
文章编号	307
页（从-至）	7479-7485
页数	7
期刊	Journal of Physics Condensed Matter
卷	14
期	32
DOI	https://doi.org/10.1088/0953-8984/14/32/307
出版状态	已出版 - 19 8月 2002

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title = "Surface tension of undercooled liquid cobalt",

abstract = "This paper provides the results on experimentally measured and numerically predicted surface tensions of undercooled liquid cobalt. The experiments were performed by using the oscillation drop technique combined with electromagnetic levitation. The simulations are carried out with the Monte Carlo (MC) method, where the surface tension is predicted through calculations of the work of cohesion, and the interatomic interaction is described with an embedded-atom method. The maximum undercooling of the liquid cobalt is reached at 231 K (0.13Tm) in the experiment and 268 K (0.17Tm) in the simulation. The surface tension and its relationship with temperature obtained in the experiment and simulation are σexp = 1.93 - 0.000 33 (T - Tm) N m-1 and σcal = 2.26 - 0.000 32 (T - Tm) N m-1 respectively. The temperature dependence of the surface tension calculated from the MC simulation is in reasonable agreement with that measured in the experiment.",

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AU - Yao, W. J.

AU - Han, X. J.

AU - Chen, M.

AU - Wei, B.

AU - Guo, Z. Y.

PY - 2002/8/19

Y1 - 2002/8/19

N2 - This paper provides the results on experimentally measured and numerically predicted surface tensions of undercooled liquid cobalt. The experiments were performed by using the oscillation drop technique combined with electromagnetic levitation. The simulations are carried out with the Monte Carlo (MC) method, where the surface tension is predicted through calculations of the work of cohesion, and the interatomic interaction is described with an embedded-atom method. The maximum undercooling of the liquid cobalt is reached at 231 K (0.13Tm) in the experiment and 268 K (0.17Tm) in the simulation. The surface tension and its relationship with temperature obtained in the experiment and simulation are σexp = 1.93 - 0.000 33 (T - Tm) N m-1 and σcal = 2.26 - 0.000 32 (T - Tm) N m-1 respectively. The temperature dependence of the surface tension calculated from the MC simulation is in reasonable agreement with that measured in the experiment.

AB - This paper provides the results on experimentally measured and numerically predicted surface tensions of undercooled liquid cobalt. The experiments were performed by using the oscillation drop technique combined with electromagnetic levitation. The simulations are carried out with the Monte Carlo (MC) method, where the surface tension is predicted through calculations of the work of cohesion, and the interatomic interaction is described with an embedded-atom method. The maximum undercooling of the liquid cobalt is reached at 231 K (0.13Tm) in the experiment and 268 K (0.17Tm) in the simulation. The surface tension and its relationship with temperature obtained in the experiment and simulation are σexp = 1.93 - 0.000 33 (T - Tm) N m-1 and σcal = 2.26 - 0.000 32 (T - Tm) N m-1 respectively. The temperature dependence of the surface tension calculated from the MC simulation is in reasonable agreement with that measured in the experiment.

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Surface tension of undercooled liquid cobalt

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