The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen

The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen

A novel MgO-C-Al-Si refractory with low carbon content used in bottom-blowing elements was prepared, and its phase composition and microstructural evolution were investigated by XRD, SEM and EDS after being treated at 1200–1600°C in flowing nitrogen. Results show that the samples are composed of MgO...

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Main Authors: Mingwei Yan, Jiayu Zhang, Yumin Yang, Kaiqi Liu, Guangchao Sun
Format: Article
Language:English
Published: Taylor & Francis Group 2021-07-01
Series:Journal of Asian Ceramic Societies
Subjects:
mgo-c-al-si
bottom-blowing element
phase composition
microstructure
nitrogen
Online Access:http://dx.doi.org/10.1080/21870764.2021.1917113
id doaj-87a8c8afb45c4025b8f99b18c249e583
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spelling doaj-87a8c8afb45c4025b8f99b18c249e5832021-10-04T13:57:03ZengTaylor & Francis GroupJournal of Asian Ceramic Societies2187-07642021-07-019379480510.1080/21870764.2021.19171131917113The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogenMingwei Yan0Jiayu Zhang1Yumin Yang2Kaiqi Liu3Guangchao Sun4Institute of Process Engineering, Chinese Academy of SciencesInstitute of Process Engineering, Chinese Academy of SciencesAVIC Tianshui New & High Abrasives Co., LtdInstitute of Process Engineering, Chinese Academy of SciencesInstitute of Process Engineering, Chinese Academy of SciencesA novel MgO-C-Al-Si refractory with low carbon content used in bottom-blowing elements was prepared, and its phase composition and microstructural evolution were investigated by XRD, SEM and EDS after being treated at 1200–1600°C in flowing nitrogen. Results show that the samples are composed of MgO, Al4C3, SiC, Al4SiC4, MgAl2O4, Mg3Al2N4 and Al2O3 at 1200–1400°C, while the samples are composed of MgO, Al4C3, SiC, Al4SiC4, Al4Si2C5, MgAl2O4, Mg3Al2N4 and Al2O3 at 1500–1600°C. Al and Si present gradient reactivity at high temperatures and Al has priority over Si to react with MgO, forming MgAl2O4. Based on the microstructure analysis, we find that the higher the temperatures are, the more abundant the products. Al(g), Al2O(g), SiO(g), Mg(g) and CO(g), as the gas–gas reaction substances, react to form many of Al4SiC4 flakes containing Mg, O and N within pores or gaps of the refractory, along with trace amounts of SiC whiskers and MgAl2O4 spinel whiskers. In addition, the surface morphology of the magnesia aggregates is modified by the MgAl2O4 spinels and Al4SiC4 flakes, owing to the synergistic effect of Al and Si. Further, some physical properties are also characterized.http://dx.doi.org/10.1080/21870764.2021.1917113mgo-c-al-sibottom-blowing elementphase compositionmicrostructurenitrogen
collection DOAJ
language English
format Article
sources DOAJ
author Mingwei Yan
Jiayu Zhang
Yumin Yang
Kaiqi Liu
Guangchao Sun
spellingShingle Mingwei Yan
Jiayu Zhang
Yumin Yang
Kaiqi Liu
Guangchao Sun
The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
Journal of Asian Ceramic Societies
mgo-c-al-si
bottom-blowing element
phase composition
microstructure
nitrogen
author_facet Mingwei Yan
Jiayu Zhang
Yumin Yang
Kaiqi Liu
Guangchao Sun
author_sort Mingwei Yan
title The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
title_short The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
title_full The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
title_fullStr The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
title_full_unstemmed The phase composition and microstructural evolution of a novel MgO-C-Al-Si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
title_sort phase composition and microstructural evolution of a novel mgo-c-al-si refractory used in bottom-blowing elements at high temperatures in flowing nitrogen
publisher Taylor & Francis Group
series Journal of Asian Ceramic Societies
issn 2187-0764
publishDate 2021-07-01
description A novel MgO-C-Al-Si refractory with low carbon content used in bottom-blowing elements was prepared, and its phase composition and microstructural evolution were investigated by XRD, SEM and EDS after being treated at 1200–1600°C in flowing nitrogen. Results show that the samples are composed of MgO, Al4C3, SiC, Al4SiC4, MgAl2O4, Mg3Al2N4 and Al2O3 at 1200–1400°C, while the samples are composed of MgO, Al4C3, SiC, Al4SiC4, Al4Si2C5, MgAl2O4, Mg3Al2N4 and Al2O3 at 1500–1600°C. Al and Si present gradient reactivity at high temperatures and Al has priority over Si to react with MgO, forming MgAl2O4. Based on the microstructure analysis, we find that the higher the temperatures are, the more abundant the products. Al(g), Al2O(g), SiO(g), Mg(g) and CO(g), as the gas–gas reaction substances, react to form many of Al4SiC4 flakes containing Mg, O and N within pores or gaps of the refractory, along with trace amounts of SiC whiskers and MgAl2O4 spinel whiskers. In addition, the surface morphology of the magnesia aggregates is modified by the MgAl2O4 spinels and Al4SiC4 flakes, owing to the synergistic effect of Al and Si. Further, some physical properties are also characterized.
topic mgo-c-al-si
bottom-blowing element
phase composition
microstructure
nitrogen
url http://dx.doi.org/10.1080/21870764.2021.1917113
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