Thermal Diffusivity of Solid and Liquid 304 Stainless Steel, Iron, and Zirconium

IF 2.5 4区 工程技术 Q3 CHEMISTRY, PHYSICAL
Jad Houssein, Thomas Pierre, Mickaël Courtois, Muriel Carin
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引用次数: 0

Abstract

Measurement of the thermophysical properties of liquid metals is a highly challenging task due to numerous problems encountered above the fusion point. Properties such as density and surface tension have been widely investigated, while few studies address thermal diffusivity. In this paper we describe an original methodology for estimating the thermal diffusivity of metals in the liquid state. The proposed experimental setup is based on the traditional flash method. Its design ensures that samples of liquid metal are self-contained, preventing contamination and allowing measurements at high temperature. Results for both solid and liquid iron and 304 stainless steel are presented and compared to data suggested by the literature for validation. Then, for the first time, thermal diffusivity measurement of liquid zirconium is performed giving results up to 2450 K. Giving the high sensitivity of the results to the thickness variation we propose a numerical approach to deal with this issue.

Abstract Image

固态和液态 304 不锈钢、铁和锆的热扩散率
由于在熔点以上会遇到许多问题,因此测量液态金属的热物理性质是一项极具挑战性的任务。密度和表面张力等特性已得到广泛研究,而针对热扩散的研究却很少。本文介绍了一种估算液态金属热扩散率的原创方法。建议的实验装置基于传统的闪蒸法。它的设计确保了液态金属样品是独立的,从而防止了污染,并允许在高温下进行测量。实验结果显示了固态和液态铁以及 304 不锈钢的热导率,并与文献建议的数据进行了比较,以进行验证。鉴于测量结果对厚度变化的高度敏感性,我们提出了一种数值方法来解决这一问题。
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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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