液态镍的表面张力:重新评估和修正数据

IF 1.1 4区 工程技术 Q4 Engineering
Anna Werkovits, T. Leitner, G. Pottlacher
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引用次数: 6

摘要

镍是许多合金的重要组成部分,因此可靠的液相表面张力数据对于金属工业的模拟过程至关重要。我们的工作小组由Aziz等人提供的液态镍表面张力的第一个结果,导致了我们的电磁悬浮(EML)设置主题的第一批出版物之一,与文献相比,它提供了不同寻常的高值,它本身涵盖了广泛的范围。为了找到这种行为的原因,这项工作的目的是利用格拉茨理工大学热物理和金属物理小组的EML装置,通过振荡滴(OD)技术,研究来自不同供应商的纯度相近的镍样品的表面张力。由于不同供应商的样品之间没有发现明显的偏差,因此根据各种实验和评价参数进行了广泛的文献研究。在本次调查过程中,对Aziz等人之前获得的实验数据进行了重新评估。由于在竖直方向上对平移频率的评估中获得了认识,这些表面张力升高结果的奥秘得以解开,最终通过重新评估,阿齐兹原来得到的结果被大幅降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surface tension of liquid nickel: Re-evaluated and revised data
Nickel is an important component in many alloys, so reliable surface tension data in the liquid phase are essential for simulation processes in the metal industry. First results for surface tension of liquid nickel from our working group by Aziz et al. [1], which led to one of the first publication on the topic of our Electromagnetic Levitation (EML) setup, delivered unusual high values compared to the literature, which itself covers a wide range. To find the reason for this behaviour the aim of this work was to investigate the surface tension of nickel samples from different suppliers at similar purity grades by the Oscillating Drop (OD) technique using the EML setup of the Thermophysics and Metalphysics Group at Graz University of Technology. Since no significant deviations between samples from different suppliers have been found, an extensive literature research according to various experimental and evaluation parameters has been performed. In the course of this investigation, the earlier obtained experimental data of Aziz et al. were re-evaluated. Due to gained awareness in evaluating the translational frequency in vertical direction, the mystery of these elevated surface tension results could be solved, so that in the end the originally obtained results of Aziz have been drastically decreased through re-evaluation.
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来源期刊
High Temperatures-high Pressures
High Temperatures-high Pressures THERMODYNAMICS-MECHANICS
CiteScore
1.00
自引率
9.10%
发文量
6
期刊介绍: High Temperatures – High Pressures (HTHP) is an international journal publishing original peer-reviewed papers devoted to experimental and theoretical studies on thermophysical properties of matter, as well as experimental and modelling solutions for applications where control of thermophysical properties is critical, e.g. additive manufacturing. These studies deal with thermodynamic, thermal, and mechanical behaviour of materials, including transport and radiative properties. The journal provides a platform for disseminating knowledge of thermophysical properties, their measurement, their applications, equipment and techniques. HTHP covers the thermophysical properties of gases, liquids, and solids at all temperatures and under all physical conditions, with special emphasis on matter and applications under extreme conditions, e.g. high temperatures and high pressures. Additionally, HTHP publishes authoritative reviews of advances in thermophysics research, critical compilations of existing data, new technology, and industrial applications, plus book reviews.
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