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| Changes of Hot Compressive Strength of Iron Ore Pellets During Reduction Process and Mechanism |
| TANG Jing-kun, GUO Lei, GUO Zhan-cheng |
| State Key Laboratory of Advanced Metallurgy, University of Science and Technology, Beijing 100083, China |
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Abstract In order to research the compressive strength of pellets in blast furnace, pellets were tested in a neutral and reducing atmosphere at different temperatures and reduction degrees by using self-designed and manufactured high-temperature strength and creep solid materials online tester. The results show that: in neutral atmosphere, when the temperature reaches 1 000 ℃, the compressive strength is over 2 750 N. With the temperature increasing, there is a sharp decline on the compressive strength; in reducing atmosphere, there is a significant strength decrease between the initial reduced pellets than the pellets in neutral atmosphere at same temperature. When the temperature is up to 900 ℃, the strength is only 1 250 N and the fragment pellets are more likely powdering. The microstructure analysis indicates that the growth of lattice, the new iron with increased porosity and cracks, and the weakness of particle bonding cause the decrease of compressive strength.
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Received: 02 November 2013
Published: 14 July 2014
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| [1] |
叶匡吾,冯根生.我国球团矿的发展及应用-高炉炼铁节能、减排最重要的技术措施[J].2010年全国炼铁生产技术会议暨炼铁学术年会文集上, 2010, :-
|
| [1] |
叶匡吾,冯根生.我国球团矿的发展及应用-高炉炼铁节能、减排最重要的技术措施[J].2010年全国炼铁生产技术会议暨炼铁学术年会文集上, 2010, :-
|
| [2] |
范晓慧等.铁精矿粒度对球团强度的影响[J].中国有色金属学报, 2006, 16(11):1965-1970
|
| [2] |
范晓慧等.铁精矿粒度对球团强度的影响[J].中国有色金属学报, 2006, 16(11):1965-1970
|
| [3] |
吴斌, 龙世刚, 曹枫等.含碳球团强度及金属化率的影响因素[J].安徽工业大学学报, 2007, 24(2):127-129
|
| [3] |
吴斌, 龙世刚, 曹枫等.含碳球团强度及金属化率的影响因素[J].安徽工业大学学报, 2007, 24(2):127-129
|
| [4] |
张福顺等.内配碳铁铌共生矿冷固结球团强度实验研究[J].稀有金属与硬质合金, 2012, 40(002):60-63
|
| [4] |
张福顺等.内配碳铁铌共生矿冷固结球团强度实验研究[J].稀有金属与硬质合金, 2012, 40(002):60-63
|
| [5] |
李娜等.高含碳金属化球团强度性质[J].河北理工大学学报 自然科学版, 2009, 3(31):20-24
|
| [5] |
李娜等.高含碳金属化球团强度性质[J].河北理工大学学报 自然科学版, 2009, 3(31):20-24
|
| [6] |
Bahgat, M, et al.Magnetite Surface Morphology during Hematite Reduction with COCO2 at 1073 K[J].Materials Letters, 2007, 61(2):339-342
|
| [6] |
Bahgat, M, et al.Magnetite Surface Morphology during Hematite Reduction with COCO2 at 1073 K[J].Materials Letters, 2007, 61(2):339-342
|
| [7] |
Bohn, C, D.et althe Kinetic of Reduction of Iron Oxide by Carbon Monoxide Mixed with Carbon Dioxide[J].AIChE JOURNAL, 2010, 56(4):1016-1029
|
| [7] |
Bohn, C, D.et althe Kinetic of Reduction of Iron Oxide by Carbon Monoxide Mixed with Carbon Dioxide[J].AIChE JOURNAL, 2010, 56(4):1016-1029
|
| [8] |
A.Bonalde,AHenriquez and M. Manrique. Kinetic Analysis of the Iron Oxide Reduction Using Hydrogen-Carbon Monoxide Mixtures as Reducing Agent,[J].ISIJ international, 2005, 45(9):1255-1260
|
| [8] |
A.Bonalde,AHenriquez and M. Manrique. Kinetic Analysis of the Iron Oxide Reduction Using Hydrogen-Carbon Monoxide Mixtures as Reducing Agent,[J].ISIJ international, 2005, 45(9):1255-1260
|
| [9] |
Jose Adilson de CASTRO, HIROGAM, Jun-ichiro YAGI.Transient Mathematical Model of Blast Furnace Based on Multi-Fluid Concept,with Application to High PCI Operation[J].ISIJ international, 2000, 40(7):637-646
|
| [9] |
Jose Adilson de CASTRO, HIROGAM, Jun-ichiro YAGI.Transient Mathematical Model of Blast Furnace Based on Multi-Fluid Concept,with Application to High PCI Operation[J].ISIJ international, 2000, 40(7):637-646
|
| [10] |
HUANG Zhun-cheng, YI Ling-yun, JIANG Tao.Mechanisms of Strength Decrease in the Initial Reduction of Iron Ore Oxide Pellets[J].Powder Technology, 2012, 221:284-291
|
| [10] |
HUANG Zhun-cheng, YI Ling-yun, JIANG Tao.Mechanisms of Strength Decrease in the Initial Reduction of Iron Ore Oxide Pellets[J].Powder Technology, 2012, 221:284-291
|
| [11] |
左晓剑, 王静松等.高还原势气氛下球团矿还原行为的研究[J].钢铁钒钛, 2013, 34(2):46-53
|
| [11] |
左晓剑, 王静松等.高还原势气氛下球团矿还原行为的研究[J].钢铁钒钛, 2013, 34(2):46-53
|
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2014, Vol. 49 
