Thermodynamic Properties and Equations of State for Solid and Liquid Magnesium

IF 2.5 4区 工程技术 Q3 CHEMISTRY, PHYSICAL
Nikolay V. Kozyrev
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引用次数: 0

Abstract

High-temperature equations of state (EoSs) for solid magnesium with hexagonal close-packing (hcp) and for liquid magnesium were formulated herein by using experimental data on the thermodynamic properties, thermal expansion, compressibility, temperature-dependent bulk compression modulus, and melting curve. The totality of experimental data was co-optimized using the temperature-dependent Tait EoS over a pressure range of 0–500 kbar at temperatures of 20–923 K for solid Mg and at 923–2000 K for liquid Mg. The temperature dependence of thermodynamic and thermophysical parameters was described by the extended Einstein model. The resultant EoSs give a good fit to the whole set of experimental data within measurement errors of individual quantities. The high prediction accuracy was achieved by estimating the thermodynamic and thermophysical properties of solid Mg. For liquid Mg, the suggested model adequately describes and, in some cases, averages the existing experimental data.

Abstract Image

固态和液态镁的热力学性质和状态方程
本文利用热力学性质、热膨胀、压缩性、随温度变化的体积压缩模量和熔化曲线的实验数据,制定了六方紧密堆积(hcp)固态镁和液态镁的高温状态方程(EoS)。在 0-500 kbar 的压力范围内,固态镁的温度为 20-923 K,液态镁的温度为 923-2000 K,使用与温度相关的 Tait EoS 对所有实验数据进行了共同优化。热力学和热物理参数的温度依赖性由扩展的爱因斯坦模型描述。在单个量的测量误差范围内,得出的 EoS 与整组实验数据拟合良好。通过估算固态镁的热力学和热物理性质,获得了较高的预测精度。对于液态镁,所建议的模型充分描述了现有的实验数据,在某些情况下还平均了这些数据。
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来源期刊
CiteScore
4.10
自引率
9.10%
发文量
179
审稿时长
5 months
期刊介绍: International Journal of Thermophysics serves as an international medium for the publication of papers in thermophysics, assisting both generators and users of thermophysical properties data. This distinguished journal publishes both experimental and theoretical papers on thermophysical properties of matter in the liquid, gaseous, and solid states (including soft matter, biofluids, and nano- and bio-materials), on instrumentation and techniques leading to their measurement, and on computer studies of model and related systems. Studies in all ranges of temperature, pressure, wavelength, and other relevant variables are included.
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