単結晶Al<sub>2</sub>O<sub>3</sub>板を通した液体金属中のAl<sub>2</sub>O<sub>3</sub>粒子/単結晶Al<sub>2</sub>O<sub>3</sub>板間の焼結界面のその場観察

IF 0.3 4区 材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING Tetsu To Hagane-journal of The Iron and Steel Institute of Japan Pub Date : 2023-11-01 DOI:10.2355/tetsutohagane.tetsu-2023-025
Masashi Nakamoto, Toshihiro Tanaka
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Abstract

In a continuous casting process, the clogging of the immersion nozzle with inclusions occurs as a result of the adhesion, agglomeration, and coalescence of inclusions. The most effective way to understand the behavior of inclusions, i.e. oxide particles, in a liquid steel is the in-situ observation. To our knowledge, however, there is no research on the in-situ observation of the behavior of oxide particles in a liquid steel. In the present work, therefore, the in-situ observation method for sintering interface between Al2O3 particle / single crystalline Al2O3 plate by laser microscope through single crystalline Al2O3 plate is proposed. First, the in-situ observation of sintering interface between Al2O3 particle and single crystalline Al2O3 in Ar atmosphere is conducted to verify the observation method for the interface through single crystalline Al2O3 plate. Then, the in-situ observation of sintering interface between Al2O3 particle and single crystalline Al2O3 in a liquid Ag is challenged. The observations for sintering interface between Al2O3 particle and single crystalline Al2O3 plate in Ar gas atmosphere and a liquid Ag are achieved by our proposed method. It is verified that the growth of sintering interface in liquid Ag is faster than that in an Ar gas atmosphere. This finding indicates that the non-wetting by liquid Ag of alumina particles promotes the growth of sintering interface in liquid Ag.
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单晶体al<sub & gt;2 &爱尔蒂;/ sub & gt;o &爱尔蒂;sub & gt;3 &爱尔蒂;/ sub & gt;穿过板的液态金属中的al<sub & gt;2 &爱尔蒂;/ sub & gt;o &爱尔蒂;sub & gt;3 &爱尔蒂;/ sub & gt;粒子/单晶al<sub & gt;2 &爱尔蒂;/ sub & gt;o &爱尔蒂;sub & gt;3 &爱尔蒂;/ sub & gt;对木板间的烧结面的当场观察
在连铸过程中,夹杂物堵塞浸没喷嘴是由于夹杂物的粘附、结块和聚并造成的。了解钢液中夹杂物(即氧化物颗粒)行为的最有效方法是现场观察。然而,据我们所知,还没有对钢液中氧化物颗粒的行为进行现场观察的研究。因此,本文提出了用激光显微镜通过单晶Al2O3板对Al2O3颗粒/单晶Al2O3板之间烧结界面进行原位观察的方法。首先,在Ar气氛中对Al2O3颗粒与单晶Al2O3烧结界面进行了原位观察,验证了通过单晶Al2O3板观察界面的方法。然后,对液态银中Al2O3颗粒与Al2O3单晶之间的烧结界面进行了原位观察。用该方法对Al2O3颗粒与单晶Al2O3板在氩气气氛和液态银中烧结界面进行了观察。结果表明,在液态Ag中烧结界面的生长速度比在氩气中快。这一发现表明,液态银对氧化铝颗粒的不润湿作用促进了液态银中烧结界面的生长。
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来源期刊
CiteScore
0.70
自引率
33.30%
发文量
74
审稿时长
6-12 weeks
期刊介绍: The journal ISIJ International first appeared in 1961 under the title Tetsu-to-Hagané Overseas. The title was changed in 1966 to Transactions of The Iron and Steel Institute of Japan and again in 1989 to the current ISIJ International. The journal provides an international medium for the publication of fundamental and technological aspects of the properties, structure, characterization and modeling, processing, fabrication, and environmental issues of iron and steel, along with related engineering materials. Classification I Fundamentals of High Temperature Processes II Ironmaking III Steelmaking IV Casting and Solidification V Instrumentation, Control, and System Engineering VI Chemical and Physical Analysis VII Forming Processing and Thermomechanical Treatment VIII Welding and Joining IX Surface Treatment and Corrosion X Transformations and Microstructures XI Mechanical Properties XII Physical Properties XIII New Materials and Processes XIV Social and Environmental Engineering.
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