On wetting of dense alumina substrate by low alloy steel containing oxygen

METAL 2021 Conference Proeedings Pub Date : 1900-01-01 DOI:10.37904/metal.2021.4078

V. Novák, L. Řeháčková, S. Rosypalová, D. Matýsek, B. Smetana, M. Tkadlečková, M. Sniegoň, P. Váňová, K. Konečná, Ľ. Drozdová

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Abstract

This investigation was carried out to determine the wetting characteristics of low alloy steel grades that contained, among other elements, chromium around 5 wt.% and oxygen up to approximately 400 ppm. The tests were performed from the melting temperature to a temperature of 1,600 °C using a high-temperature observation furnace CLASIC operating under non-oxidizing conditions. The influence of oxygen on the examined steel's wetting behavior, i.e., the temperature dependence of surface tension and wetting angle, was found and verified by statistical analysis using the Kruskal-Wallis test. In addition, the phase transition temperatures, ascertained from DTA measurements, were in strong correlation with those theoretically calculated. To provide better insight into the wetting mechanism, SEM/EDX analyses of the wetted alumina surface and of the vertical cross-section of the steel/alumina interface were made using a scanning electron microscope (SEM) JEOL 6490 LV. Beyond the mentioned techniques, the study was accompanied by calculations performed in FactSage oxide database.

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含氧低合金钢润湿致密氧化铝基体的研究

这项研究是为了确定低合金钢牌号的润湿特性，在其他元素中，含有约5wt .%的铬和高达约400ppm的氧。试验在非氧化条件下使用classic高温观察炉从熔融温度到1600℃进行。通过Kruskal-Wallis试验的统计分析，发现并验证了氧对被测钢的润湿行为的影响，即表面张力和润湿角的温度依赖性。此外，由差热分析测定的相变温度与理论计算的相变温度有很强的相关性。为了更好地了解润湿机理，使用JEOL 6490 LV扫描电子显微镜(SEM)对润湿的氧化铝表面和钢/氧化铝界面的垂直截面进行了SEM/EDX分析。除了上述技术之外，本研究还在FactSage氧化物数据库中进行了计算。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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METAL 2021 Conference Proeedings

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