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人物简介
  • 姓        名:刘晓明
  • 职        务:教授/博士生导师/副经理
  • 电子邮件: liuxm@ustb.edu.cn

  • 办公电话: 010-82375103                      传        真:

  • 办公地点:冶金生态楼313房间

  • 本科课程:钢铁绿色制造技术,科技英语写作方法

  • 研究生课程: 资源循环与高效利用

  • 科研方向:

  • Ø 冶金等工业固废材料化利用

  • Ø 固废中有价元素提取与回收

官方个人主页:/szdw/szdwxsjs/stkxygcx1/jsyjyjsjgjgcs3/lxm1/index.htm

  • 个人简介
  • 成就及业绩

  • 个人简介:

    【教育与工作简历】

    1999-2003,中国矿业大学,本科

    2004-2010,中国矿业大学(北京),博士

    期间:2007.8-2009.8,美国威斯康星-麦迪逊大学,博士联合培养

    2010-2012,集团,团队博士后

    2012-2013,集团,讲师

    2013-2018,集团,副教授,系副主任

    2017-今,集团,博士生导师

    2018-今,集团,教授,副经理


    【主要学术成就】

    刘晓明(1980- ),入选国家重大人才工程(青年项目),教育部“课程思政教学名师及教学团队成员”,中国金属学会“冶金青年科技奖”获得者。一直从事工业固废/危废资源化高效利用的研究与应用工作,包括有色/钢铁冶炼渣尘、煤基固废、工业副产石膏、尾矿、垃圾焚烧飞灰等固废的材料化利用,固废中有价元素的提取利用。先后承担国家、省部级和企业科研项目60余项。在等国内外学术期刊发表论文110余篇,已授权发明专利24件,以第一完成人获省部级科技进步奖2项。兼任中国硅酸盐学会理事,中国硅酸盐学会固废分会常务理事、青年委员会主任委员,中国建筑学会建材分会理事,《Green Energy and Resources》、《IJMMM》、《J Iron Steel Res Int》、《Materials》、《工程科学学报》、《钢铁研究学报》等期刊编委/青年编委。

    主编出版教材《冶金固废材料化利用》,承担省部级教改项目2项,获北京市公司产品成果奖一等奖1项、二等奖1项。先后指导博士生9名、硕士生26名,所指导的研究生先后荣获“董事长奖章”、校“十佳学术之星”、北京市优秀毕业生、全国老员工冶金科技竞赛特等奖、校优秀研究生论文等荣誉。


    代表性论著:

    近几年发表的主要文章:

    [1] Yaguang Wang, Xiaoming Liu*, Wei Zhang, Zepeng Li, Yuliang Zhang, Yong Li, Yongyu Ren, Effects of Si/Al ratio on the efflorescence and properties of fly ash based geopolymer,  Journal of Cleaner Production , 2020, 244, 118852. (ESI高被引论文)

    [2] Emile Mukiza, LingLing Zhang*, Xiaoming Liu*, Na Zhang. Utilization of red mud in road base and subgrade materials: A review,  Resources, Conservation and Recycling . 2019, 141: 187-199.(ESI高被引论文)

    [3] Yang Xue, Xiaoming Liu*, Detoxification, solidification and recycling of municipal solid waste incineration fly ash: A review.  Chemical Engineering Journal , 2021,420:130349.

    [4] Yong Li, Xiaoming Liu*, Zepeng Li, Yongyu Ren, Yaguang Wang, Wei Zhang. Preparation, characterization and application of red mud, fly ash and desulfurized gypsum based eco-friendly road base materials,  Journal of Cleaner Production . 2021, 284, 124777.

    [5] Yaguang Wang, Dongsheng Li, Xiaoming Liu*, Wei Zhang, Zepeng Li, Yong Li, Yongyu Ren, Heng Li. Mechanism of magnetizing the Bayer red mud and meanwhile improving the cementitious activity of its tailings by using biomass.  Journal of Cleaner Production , 2021, 287, 125016.

    [6] Wei Zhang, Xiaoming Liu*, Yaguang Wang, Zepeng Li, Yong Li, Yongyu Ren. Binary reaction behaviors of red mud based cementitious material: Hydration characteristics and Na+ utilization.  Journal of Hazardous Materials , 2021, 410:124592.

    [7] Mengfan Wang, Xiaoming Liu*. Applications of red mud as an environmental remediation material: A review.  Journal of Hazardous Materials , 2021, 408:124420.

    [8] Wei Zhang, Xiaoming Liu*, Zengqi Zhang*, Yantian Li, Jiarui Gu, Yaguang Wang, Yang Xue. Circulating fluidized bed fly ash-blast furnace slag based cementitious materials: Hydration behaviors and performance.  Construction and Building Materials , 2022, 342: 128006.

    [9] Yang Lu, Xiaoming Liu*, Zengqi Zhang, Yaguang Wang, Yang Xue, Mengfan Wang. Applications of red mud as a masonry material: a review.  Bulletin of Environmental Contamination and Toxicology. 2022, 108(2):1-13.

    [10] Xiansheng Hao, Xiaoming Liu*, Zengqi Zhang*, Wei Zhang, Yang Lu, Yaguang Wang and Tongyuan Yang. In-depth insight into the cementitious synergistic effect of steel slag and red mud on the properties of composite cementitious materials[J].  Journal of Building Engineering , 2022, 52: 104449.

    [11] Wei Zhang, Xiaoming Liu*, Zengqi Zhang*. Mechanical, expansion and rheological properties of circulating fluidized bed fly ash based ecological cement: A critical review. International Journal of Minerals, Metallurgy and Materials. 2022

    [12] Tongyuan Yang, Yang Xue, Xiaoming Liu*, Zengqi Zhang*. Solidification/stabilization and separation/extraction treatments of environmental hazardous components in electrolytic manganese residue: A review.  Process Safety and Environmental Protection . 2022, 157: 509-526.

    [13] Zepeng Li, Xiaoming Liu*, Yong Li, Yongyu Ren, Yaguang Wang, Wei Zhang. Effects of sulfate on the mechanical performances and hydration characteristics of red mud based non-burnt brick.  Construction and Building Materials , 2020, 262, 120722.

    [14] Emile Mukiz, Lingling Zhang*, Xiaoming Liu*. Durability and microstructure analysis of the road base material prepared from red mud and flue gas desulfurization fly ash.  International Journal of Minerals, Metallurgy and Materials , 2020, 27(4), 555-568.

    [15] Yuliang Zhang, Xiaoming Liu*, Yingtang Xu, Binwen Tang, Yaguang Wang, Preparation of road base material by utilizing electrolytic manganese residue based on Si-Al structure: Mechanical properties and Mn2+ stabilization/solidification characterization,  Journal of Hazardous Materials , 2020, 390, 122188.

    [16] Yingtang Xu, Xiaoming Liu*, Yuliang Zhang, Binwen Tang, Emile Mukiza. Investigation on sulfate activation of electrolytic manganese residue on early activity of blast furnace slag in cement-based cementitious material.  Construction and Building Materials , 2019, 229, 116831.

    [17] Yaguang Wang, Shuai Gao, Xiaoming Liu*, BinwenTang, Emile Mukiz, Na Zhang*. Preparation of non-sintered permeable bricks using electrolytic manganese residue: Environmental and NH3-N recovery benefits.  Journal of Hazardous Materials , 2019, 378, 120768.

    [18] Emile Mukiz, Xiaoming Liu*, Lingling Zhang*, Na Zhang, Preparation and characterization of a red mud-based road base material: Strength formation mechanism and leaching characteristics.  Construction and Building Materials , Volume 220, 2019, Pages 297-307.

    [19] Yuliang Zhang, Xiaoming Liu*, Yingtang Xu, Binwen Tang, Yaguang Wang, Emile Mukiz. Synergic effects of Electrolytic Manganese Residue-Red Mud-Carbide Slag on the road base strength and durability properties,  Construction and Building Materials , Volume 220, 2019, Pages 364-374.

    [20] Yuliang Zhang, Xiaoming Liu*, Yingtang Xu, Binwen Tang, Yaguang Wang, Emile Mukiz, Preparation and characterization of cement treated road base material utilizing electrolytic manganese residue.  Journal of Cleaner Production , Volume 232, 2019, Pages 980-992.

    [21] Na Zhang*, Le Wu, Xiaoming Liu*, Yihe Zhang*, Structural characteristics and cementitious behavior of basic oxygen furnace slag mud and electric arc furnace slag.  Construction and Building Materials , 2019, 219, Pages 11-18.

    [22] Yingtang Xu, Bo Yang, Xiaoming Liu*, Shuai Gao, Dongsheng Li, Emile Mukiz, and Huajian Li. Investigation of the medium calcium based non-burnt brick made by red mud and fly ash: durability and hydration characteristics.  International Journal of Minerals, Metallurgy and Materials , 2019, 26(8), 983-991.(获该期刊年度优秀论文奖)

    [23] Dandan Peng, Yaguang Wang, Xiaoming Liu*, Binwen Tang, Na Zhang*. Preparation, characterization, and application of an eco-friendly sand-fixing material largely utilizing coal-based solid waste. Journal of Hazardous Materials , Volume 373, 2019, Pages 294-302

    [24] Binwen Tang, Shuai Gao, Yaguang Wang, Xiaoming Liu*, Na Zhang*. Pore structure analysis of electrolytic manganese residue based permeable brick by using industrial CT.  Construction and Building Material , 2019, 208, 697-709.

    [25] Xiang Lu, Wenbin Dai, Xiaoming Liu*, Daqiang Cang, and Liang Zhou. Effect of basicity on cementitious activity of modified electric arc furnace steel slag.  Metallurgical Research Technology . 2019, 116(2):217-223.

    [26] X. Liu*, X. Zhao, H. Yin, J. Chen, N. Zhang*. Intermediate-calcium based cementitious materials prepared by MSWI fly ash and other solid wastes: hydration characteristics and heavy metals solidification behavior.  Journal of Hazardous Materials .2018, 349, 262-271.

    [27] X. Liu, N. Zhang, Y. Yao*, H. Sun, C. Feng. Micro-structural characterization of the hydration products of bauxite-calcination-method red mud-coal gangue based cementitious materials. Journal of Hazardous Materials , 2013, 262, 428-438.

    [28] X. Liu*, N. Zhang, H. Sun, J. Zhang, L. Li. Structural investigation relating to the cementitious activity of bauxite residue – red mud.  Cement and Concrete Research, 2011,41(8):847-853.

    [29] X. Liu*, N. Zhang. Utilization of red mud in cement production: A review.  Waste Management and Research, 2011, 29(10): 1053-1063.

    [30] N. Zhang, H. Li, X. Liu*, Hydration mechanism and leaching behavior of bauxite-calcination-method red mud-coal gangue based cementitious materials.  Journal of Hazardous Materials , 2016, 314, 172-180.

    [31] N. Zhang, H. Li, Y. Zhao, X. Liu*, Hydration products and environmental friendly performance of a cementitious material composed of calcium silicate slag.  Journal of Hazardous Materials , 2016, 306, 67-76.

    [32] N. Zhang, H. Sun, X. Liu*, J. Zhang, Early-age characteristics of red mud-coal gangue cementitious material.  Journal of Hazardous Materials . 2009,167:927-932.

    [33] X. Liu*, H. Sun, X. Feng, N. Zhang. Relationship between the microstructure and reaction performance of aluminosilicate.  International Journal of Mineral, Metallurgy and Materials , 2010,17(1):108-115.

    [34] X. Liu*, N. Zhang, H. Sun, Y. Li , D. Cang. Effect of multiplex thermal activation on microstructure of red mud-coal gangue,  Rare Metal Materials and Engineering , 2013, 42(6):538-542.

    [35] X. Liu*, D. Cang, H. Sun, Y. Zong. Effect of Oil Shale Residue on the Hydration of Red Mud-Fly Ash Cementitious Material.  The Journal of Solid Waste Technology and Management . 2013, 39(1):43-50.

    [36] X. Liu*, H. Zhang, S. Li, D. Huang, Y. Zhao,Mechanism on Reduction of Fe2O3 by Biomass Sawdust, Journal of Shanghai JiaoTong University . 2017, 22(3):280-285.

    [37] X. Liu*, Y. Li, L. Zhang, D. Cang, S. Zhou. Phase transitions relating to the pozzolanic activity of electrolytic manganese residue during calcinations.  Journal of Shanghai JiaoTong University. 2013, 18(1): 105-110.

    [38] X. Liu*, Y. Li, H. Sun, D. Cang. Effect of oil shale on the Na+ solidification of red mud-fly ash cementitious material.  Journal of Shanghai JiaoTong University. 2012, 17(6): 723-729.

    [39] X. Liu, H. Wen*, T. B. Edil, C. H. Benson. Stabilization of Flue Gas Desulfurization By-Products with Fly Ash, Cement, and Sialite.  Journal of the Transportation Research Board.  2011,2204:pp 102-109.

    [40] D. Huang, Y. Zong, R. Wei, W. Gao, X. Liu*. Direct Reduction of High-Phosphorus Oolitic Hematite Ore Based on Biomass Pyrolysis. Journal of Iron and Steel Research International . 2016,23(9):874-883.

    [41] N. Zhang, H. Li, D. Peng, X. Liu*, Properties evaluation of silica-alumina based concrete: Durability and environmental friendly performance.  Construction and Building Materials . 2016, 115, 105-113.

    [42] N. Zhang*, X. Liu, H. Sun, L. Li. Evaluation of blends bauxite-calcination-method red mud with other industrial wastes as a cementitious material: Properties and hydration characteristics.  Journal of Hazardous Materials , 2011,185(1):329-335.

    [43] N. Zhang*, X. Liu, H. Sun, L. Li. Pozzolanic behaviour of compound-activated red mud-coal gangue mixture.  Cement and Concrete Research , 2011,41(3):270-278.

    [44] 王亚光,刘晓明*. 赤泥基光催化材料降解水中有机污染物的应用现状及发展趋势[J].  工程科学学报 , 2021, 43(1): 22-32.

    [45] 刘晓明*, 唐彬文, 尹海峰, Emile Mukiza. 赤泥煤矸石基公路路面基层材料的耐久与环境性能. 工程科学学报, 2018, 40(4):438-445.(该期刊2018年度被引用前10名文章)

    [46] 李恒, 刘晓明*, 赵喜彬, 陈蛟龙, 尹海峰, 生物质松木锯末中低温还原高铁拜耳法赤泥. 工程科学学报, 2017, 39(9): 1331-1338.

    [47] 陈蛟龙,张娜,李恒,赵喜彬,刘晓明*.赤泥基似膏体充填材料水化特性研究.工程科学学报, 2017, 39 (11):1641-1646.

    [48] 黄冬波,宗燕兵,邓振强, 刘莲凤, 李彦辉, 王俊, 刘晓明*. 鲕状赤铁矿生物质低温磁化焙烧实验研究,工程科学学报.2015,37(10):1260-1267.

    [49] 张娜,刘晓明*,孙恒虎. 赤泥-煤矸石基中钙体系胶凝材料的水化特性.材料研究学报.2014,28(5): 325-332.