Guo-liang Zhang, Sheng-li Wu, Bo Su, Zhi-gang Que, Chao-gang Hou, and Yao Jiang, Influencing factor of sinter body strength and its effects on iron ore sintering indexes, Int. J. Miner. Metall. Mater., 22(2015), No. 6, pp. 553-561. https://doi.org/10.1007/s12613-015-1107-x
Cite this article as:
Guo-liang Zhang, Sheng-li Wu, Bo Su, Zhi-gang Que, Chao-gang Hou, and Yao Jiang, Influencing factor of sinter body strength and its effects on iron ore sintering indexes, Int. J. Miner. Metall. Mater., 22(2015), No. 6, pp. 553-561. https://doi.org/10.1007/s12613-015-1107-x
Guo-liang Zhang, Sheng-li Wu, Bo Su, Zhi-gang Que, Chao-gang Hou, and Yao Jiang, Influencing factor of sinter body strength and its effects on iron ore sintering indexes, Int. J. Miner. Metall. Mater., 22(2015), No. 6, pp. 553-561. https://doi.org/10.1007/s12613-015-1107-x
Citation:
Guo-liang Zhang, Sheng-li Wu, Bo Su, Zhi-gang Que, Chao-gang Hou, and Yao Jiang, Influencing factor of sinter body strength and its effects on iron ore sintering indexes, Int. J. Miner. Metall. Mater., 22(2015), No. 6, pp. 553-561. https://doi.org/10.1007/s12613-015-1107-x
Sinter body strength, which reflects the strength of sinter, plays an important role in the improvement of sinter. In this study, the sinter body strengths of iron ores were measured using a microsintering method. The relationship between the chemical composition and sinter body strength was discussed. Moreover, sinter-pot tests were performed. The effects of sinter body strength on the sintering indexes were then elucidated, and the bottom limit of sinter body strength of blending ores was confirmed. In the results, the compressive strengths (CSs) of iron ores are observed to decrease with the increasing of the contents of loss on ignition (LOI), SiO2, and Al2O3; however, LOI of less than 3wt% does not substantially influence the CSs of fine ores. In the case of similar mineral composition, the porosity, in particular, the ratio between the number of large pores and the total number of pores, strongly influences the sinter body strength. With an increase of the blending-ore CSs used in sinter-pot tests, the yield, productivity, and tumbler strength increase, and the solid fuel consumption decreases. The CSs of the blending ores only slightly affect the sintering time. The CS bottom limit of the blending ores is 310 N. When the CSs of the blending ores increase by 10%, the yield, productivity, and tumbler index increase by 1.9%, 2.8%, and 2.0%, respectively, and the solid fuel consumption decreases by 1.9%.
Sinter body strength, which reflects the strength of sinter, plays an important role in the improvement of sinter. In this study, the sinter body strengths of iron ores were measured using a microsintering method. The relationship between the chemical composition and sinter body strength was discussed. Moreover, sinter-pot tests were performed. The effects of sinter body strength on the sintering indexes were then elucidated, and the bottom limit of sinter body strength of blending ores was confirmed. In the results, the compressive strengths (CSs) of iron ores are observed to decrease with the increasing of the contents of loss on ignition (LOI), SiO2, and Al2O3; however, LOI of less than 3wt% does not substantially influence the CSs of fine ores. In the case of similar mineral composition, the porosity, in particular, the ratio between the number of large pores and the total number of pores, strongly influences the sinter body strength. With an increase of the blending-ore CSs used in sinter-pot tests, the yield, productivity, and tumbler strength increase, and the solid fuel consumption decreases. The CSs of the blending ores only slightly affect the sintering time. The CS bottom limit of the blending ores is 310 N. When the CSs of the blending ores increase by 10%, the yield, productivity, and tumbler index increase by 1.9%, 2.8%, and 2.0%, respectively, and the solid fuel consumption decreases by 1.9%.