Effect of Slag Basicity on Alumina Dissolution and Diffusivity: A High-temperature Confocal Laser Scanning Microscopy Study

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Effect of Slag Basicity on Alumina Dissolution and Diffusivity: A High-temperature Confocal Laser Scanning Microscopy Study. / Burhanuddin, Burhanuddin; Harmuth, Harald.
in: China's refractories, Jahrgang 33.2024, Nr. 2, 15.06.2024, S. 27-34.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{458fefd760964fd9bacbb6d6484f5978,
title = "Effect of Slag Basicity on Alumina Dissolution and Diffusivity: A High-temperature Confocal Laser Scanning Microscopy Study",
abstract = "Alumina is one of the crucial and extensively utilized refractory components. As the refractory wear due to dissolution at elevated temperatures during operation is a major threat to refractory lifespan, quantifying dissolution is important for developing cost-effective and resource-efficient refractories. This study investigated the dissolution of alumina particles intwo silicate and one calcium aluminate slags at 1 450, 1 500, and 1 550 °C using high-temperature confocal laser scanning microscopy (HT-CLSM). Dissolution was quantified in terms of diffusivity, with all influencing factors, including Stefan flow and bath movement, incorporated into the determination process. The trends observed in total dissolution time and diffusivity in three slags at three experimental temperatures could not be explained solely on the basis of slag basicity. Two parameters, considering the influencing factors, were introduced to explain these trends. Furthermore, the linear trend observed in Arrhenius plots of diffusivities supports the diffusivity results. Additionally, good agreement between the diffusivities of alumina in one silicate slag obtained via CLSM and rotating finger test investigations verified the reliability of the results.",
keywords = "Alumina, Dissolution, Diffusivity, Corrosion, Refractory, refractory, alumina, corrosion, dissolution, diffusivity",
author = "Burhanuddin Burhanuddin and Harald Harmuth",
note = "Publisher Copyright: {\textcopyright} 2024 Editorial Board of China's Refractories. All rights reserved.",
year = "2024",
month = jun,
day = "15",
doi = "10.19691/j.cnki.1004-4493.2024.02.005",
language = "English",
volume = "33.2024",
pages = "27--34",
journal = "China's refractories",
issn = "1004-4493",
publisher = "The Editorial Committee of China's Refractories",
number = "2",

}

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TY - JOUR

T1 - Effect of Slag Basicity on Alumina Dissolution and Diffusivity

T2 - A High-temperature Confocal Laser Scanning Microscopy Study

AU - Burhanuddin, Burhanuddin

AU - Harmuth, Harald

N1 - Publisher Copyright: © 2024 Editorial Board of China's Refractories. All rights reserved.

PY - 2024/6/15

Y1 - 2024/6/15

N2 - Alumina is one of the crucial and extensively utilized refractory components. As the refractory wear due to dissolution at elevated temperatures during operation is a major threat to refractory lifespan, quantifying dissolution is important for developing cost-effective and resource-efficient refractories. This study investigated the dissolution of alumina particles intwo silicate and one calcium aluminate slags at 1 450, 1 500, and 1 550 °C using high-temperature confocal laser scanning microscopy (HT-CLSM). Dissolution was quantified in terms of diffusivity, with all influencing factors, including Stefan flow and bath movement, incorporated into the determination process. The trends observed in total dissolution time and diffusivity in three slags at three experimental temperatures could not be explained solely on the basis of slag basicity. Two parameters, considering the influencing factors, were introduced to explain these trends. Furthermore, the linear trend observed in Arrhenius plots of diffusivities supports the diffusivity results. Additionally, good agreement between the diffusivities of alumina in one silicate slag obtained via CLSM and rotating finger test investigations verified the reliability of the results.

AB - Alumina is one of the crucial and extensively utilized refractory components. As the refractory wear due to dissolution at elevated temperatures during operation is a major threat to refractory lifespan, quantifying dissolution is important for developing cost-effective and resource-efficient refractories. This study investigated the dissolution of alumina particles intwo silicate and one calcium aluminate slags at 1 450, 1 500, and 1 550 °C using high-temperature confocal laser scanning microscopy (HT-CLSM). Dissolution was quantified in terms of diffusivity, with all influencing factors, including Stefan flow and bath movement, incorporated into the determination process. The trends observed in total dissolution time and diffusivity in three slags at three experimental temperatures could not be explained solely on the basis of slag basicity. Two parameters, considering the influencing factors, were introduced to explain these trends. Furthermore, the linear trend observed in Arrhenius plots of diffusivities supports the diffusivity results. Additionally, good agreement between the diffusivities of alumina in one silicate slag obtained via CLSM and rotating finger test investigations verified the reliability of the results.

KW - Alumina

KW - Dissolution

KW - Diffusivity

KW - Corrosion

KW - Refractory

KW - refractory

KW - alumina

KW - corrosion

KW - dissolution

KW - diffusivity

UR - http://www.scopus.com/inward/record.url?scp=85202013552&partnerID=8YFLogxK

U2 - 10.19691/j.cnki.1004-4493.2024.02.005

DO - 10.19691/j.cnki.1004-4493.2024.02.005

M3 - Article

VL - 33.2024

SP - 27

EP - 34

JO - China's refractories

JF - China's refractories

SN - 1004-4493

IS - 2

ER -