Influence of gangue existing states in iron ores on the formation and flow of liquid phase during sintering

Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan- ning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different i...

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Published in	International journal of minerals, metallurgy and materials Vol. 21; no. 10; pp. 962 - 968
Main Authors	Zhang, Guo-liang, Wu, Sheng-li, Chen, Shao-guo, Su, Bo, Que, Zhi-gang, Hou, Chao-gang
Format	Journal Article
Language	English
Published	Beijing University of Science and Technology Beijing 01.10.2014 Springer Nature B.V School of Metal urgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China
Subjects	Aluminum oxide Assimilation Bayer process Ceramics Characterization and Evaluation of Materials Chemistry and Materials Science Composites Corrosion and Coatings Formations Gangue Gibbsite Glass High temperature Iron compounds Iron ores Kaolin Liquid phases Materials Science Metallic Materials Natural Materials Quartz Silicon dioxide Sintering Surfaces and Interfaces Thin Films Tribology Viscosity 二氧化硅含量扫描电子显微镜流动液相烧结过程煤矸石状态铁矿石 fluidity ore sintering liquid phase iron ores assimilation
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Abstract	Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan- ning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering mate- dais was unraveled. The results show that, as the SiO2 levels increase in the iron ores, the lowest assimilation temperature （LAT） decreases, whereas the index of fluidity of liquid phase （IFL） increases. Below 1.5wt%, Al2O3 benefits the assimilation reaction, but higher concentra- tions proved detrimental. Larger quartz particles increase the SiO2 levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the forma- tion of liquid-phase low-Al2O3-SFCA with high IFL and high-Al2O3-SFCA with low IFL, respectively.
AbstractList	Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scanning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering materials was unraveled. The results show that, as the SiO 2 levels increase in the iron ores, the lowest assimilation temperature (LAT) decreases, whereas the index of fluidity of liquid phase (IFL) increases. Below 1.5wt%, Al 2 O 3 benefits the assimilation reaction, but higher concentrations proved detrimental. Larger quartz particles increase the SiO 2 levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the formation of liquid-phase low-Al 2 O 3 -SFCA with high IFL and high-Al 2 O 3 -SFCA with low IFL, respectively. Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scanning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering materials was unraveled. The results show that, as the SiO sub(2) levels increase in the iron ores, the lowest assimilation temperature (LAT) decreases, whereas the index of fluidity of liquid phase (IFL) increases. Below 1.5wt%, Al sub(2)O sub(3) benefits the assimilation reaction, but higher concentrations proved detrimental. Larger quartz particles increase the SiO sub(2) levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the formation of liquid-phase low-Al sub(2)O sub(3)-SFCA with high IFL and high-Al sub(2)O sub(3)-SFCA with low IFL, respectively. Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scanning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering materials was unraveled. The results show that, as the SiO2 levels increase in the iron ores, the lowest assimilation temperature (LAT) decreases, whereas the index of fluidity of liquid phase (IFL) increases. Below 1.5wt%, Al2O3 benefits the assimilation reaction, but higher concentrations proved detrimental. Larger quartz particles increase the SiO2 levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the formation of liquid-phase low-Al2O3-SFCA with high IFL and high-Al2O3-SFCA with low IFL, respectively. Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan-ning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering mate-rials was unraveled. The results show that, as the SiO2 levels increase in the iron ores, the lowest assimilation temperature (LAT) decreases, whereas the index of fluidity of liquid phase (IFL) increases. Below 1.5wt%, Al2O3 benefits the assimilation reaction, but higher concentra-tions proved detrimental. Larger quartz particles increase the SiO2 levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the forma-tion of liquid-phase low-Al2O3-SFCA with high IFL and high-Al2O3-SFCA with low IFL, respectively. Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan- ning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering mate- dais was unraveled. The results show that, as the SiO2 levels increase in the iron ores, the lowest assimilation temperature （LAT） decreases, whereas the index of fluidity of liquid phase （IFL） increases. Below 1.5wt%, Al2O3 benefits the assimilation reaction, but higher concentra- tions proved detrimental. Larger quartz particles increase the SiO2 levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the forma- tion of liquid-phase low-Al2O3-SFCA with high IFL and high-Al2O3-SFCA with low IFL, respectively.
Author	Guo-liang Zhang Sheng-li Wu Shao-guo Chen Bo Su Zhi-gang Que Chao-gang Hou
AuthorAffiliation	School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China
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CitedBy_id	crossref_primary_10_3390_min9020128 crossref_primary_10_1007_s11814_022_1242_9 crossref_primary_10_1016_j_jmrt_2021_03_054 crossref_primary_10_2355_isijinternational_ISIJINT_2020_366 crossref_primary_10_1007_s11663_022_02708_x crossref_primary_10_2355_isijinternational_ISIJINT_2020_222 crossref_primary_10_1007_s42243_018_00223_5 crossref_primary_10_1051_metal_2023074 crossref_primary_10_3390_met9040404 crossref_primary_10_3390_min10090802 crossref_primary_10_1016_j_jmrt_2020_07_032 crossref_primary_10_1007_s42243_019_00318_7 crossref_primary_10_3390_pr7120931 crossref_primary_10_3390_met12050885
Cites_doi	10.1007/s11663-004-0087-4 10.2355/isijinternational.45.513 10.2355/isijinternational.31.17 10.1007/s12613-013-0773-9 10.2355/isijinternational.33.462 10.1007/s12613-012-0541-2 10.2355/isijinternational.39.239 10.2355/isijinternational.47.349 10.2355/isijinternational.36.1109
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Notes	iron ores; ore sintering; assimilation; liquid phase; fluidity 11-5787/T Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan- ning electron microscopy, the effects of gangue content, gangue type, and gangue size on the assimilation characteristics and fluidity of liquid phase of five different iron ores were analyzed in this study. Next, the mechanism based on the reaction between gangues and sintering mate- dais was unraveled. The results show that, as the SiO2 levels increase in the iron ores, the lowest assimilation temperature （LAT） decreases, whereas the index of fluidity of liquid phase （IFL） increases. Below 1.5wt%, Al2O3 benefits the assimilation reaction, but higher concentra- tions proved detrimental. Larger quartz particles increase the SiO2 levels at the local reaction interface between the iron ore and CaO, thereby reducing the LAT. Quartz-gibbsite is more conductive to assimilation than kaolin. Quartz-gibbsite and kaolin gangues encourage the forma- tion of liquid-phase low-Al2O3-SFCA with high IFL and high-Al2O3-SFCA with low IFL, respectively. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23
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Publisher	University of Science and Technology Beijing Springer Nature B.V School of Metal urgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China
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Snippet	Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan- ning electron microscopy, the... Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scanning electron microscopy, the... Gangue existing states largely affect the high-temperature characteristics of iron ores. Using a micro-sintering method and scan-ning electron microscopy, the...
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SubjectTerms	Aluminum oxide Assimilation Bayer process Ceramics Characterization and Evaluation of Materials Chemistry and Materials Science Composites Corrosion and Coatings Formations Gangue Gibbsite Glass High temperature Iron compounds Iron ores Kaolin Liquid phases Materials Science Metallic Materials Natural Materials Quartz Silicon dioxide Sintering Surfaces and Interfaces Thin Films Tribology Viscosity 二氧化硅含量扫描电子显微镜流动液相烧结过程煤矸石状态铁矿石
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Title	Influence of gangue existing states in iron ores on the formation and flow of liquid phase during sintering
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