导师风采
0814土木工程

李文涛

  • 学院

    :土木建筑与环境学院

  • 导师类别

    :硕士生导师

  • 出生年月

    :198510

  • 职称

    :副教授

  • 学历

    :研究生

  • 学位

    :博士

个人简介:

        男,1985年10月生,博士,副教授,博士毕业于新西兰奥克兰大学土木工程系,同年于新加坡南洋理工大学任职博士后研究员,2020年7月开始在湖北工业大学岩土与路桥工程系工作。获省级人才项目2项。主要从事固化土、环境岩土等方面教学与科研工作。中国土木工程学会土力学及岩土工程分会第三届青年工作委员会委员,湖北省岩石力学与工程学会理事,新西兰工程师协会(IPENZ)交通分会会员,国际土力学及岩土工程学会会员,中国土工合成材料工程协会会员,获省科技进步奖一等奖1项,中国土工合成材料协会一等奖1项,共发表学术论文30篇,其中以第一作者发表SCI论文12篇,包括本领域权威期刊JGGE和Soils and Foundations,担任多个国际期刊审稿人.

招生信息

        1.招生学科:土木工程

        2.研究方向:岩土加固、特殊土处理与修复、固废资源化利用

        3.招生年度:2023


科研项目

        1. 湖北工业大学,高层次人才科研启动基金(GCRC2020015),高炉矿渣微粉固化含硫酸盐土的膨胀性及其表面裂缝的形成和扩展演化机制研究,2020-2023,在研,主持,20万元

        2.武汉市科技局,武汉市应用基础前沿项目(2020020601012278),废旧轮胎加筋建渣结构资源化利用技术研究,2020-2022,在研,参与,50万元

        3.湖北省科技厅,省科技厅科技特派员项目一般项目(2020EGD012),融雪化冰工程科技成果转化中试基地,2020-2022,在研,参与,50万元


成果获奖

        [1] W. Li, Y. Yi, A.J. Puppala (2022). Effects of curing environment and period on performance of lime-GGBS-treated gypseous soil.Transportation Geotechnics, 100848.

        [2] W. Li, J. Qin, Y. Yi (2022). Treating Pb-contaminated clay slurry by three curing agents.Chemosphere, 303: 135011.

        [3] W. Li, Y. Yi, A.J. Puppala (2021). Closure to “Suppressing ettringite-induced swelling of gypseous soil by using magnesia-ground granulated blastfurnace slag” by Wentao Li, Yaolin Yi, and Anand J. Puppala.(ASCE)Journal of Geotechnical and Geoenvironmental Engineering,147(7): 07021011.

        [4] W. Li, J. Qin, Y. Yi (2021). Carbonating MgO for treatment of manganese- and cadmium-contaminated soils.Chemosphere, 263(2021): 1-7.

        [5] W. Li, Y. Yi, A.J. Puppala (2020). Suppressing ettringite-induced swelling of gypseous soil by using magnesia-ground granulated blastfurnace slag.(ASCE)Journal of Geotechnical and Geoenvironmental Engineering,146(7): 06020008.

        [6] W. Li, Y. Yi, A.J. Puppala (2019). Utilization of carbide slag-activated ground granulated blastfurnace slag to treat gypseous soil.Soils and Foundations, 59(5), 1496-1507.

        [7] W. Li, D.J. Wilson, T.J. Larkin, P.M. Black (2019). Factors determining the optimum moisture content (OMC) of greywacke aggregates from northern New Zealand.Transportation Geotechnics, 19, 35-43.

        [8] W. Li, P. Ni, Y. Yi (2019). Comparison of reactive magnesia, quick lime, and ordinary Portland cement for stabilization/solidification of heavy metal-contaminated Soils.Science of the Total Environment, 671, 741-753.

        [9] W. Li, Y. Yi (2019). Stabilization/solidification of lead- and zinc-contaminated soils using reactive magnesia and carbon dioxide.Journal of CO2 Utilization, 33, 215-221.

        [10] W. Li, D.J. Wilson, T.J. Larkin, P.M. Black (2017). An investigation into premium and marginal pavement aggregates from New Zealand.Quarterly Journal of Engineering Geology and Hydrogeology, 50, 438-443.

        [11] W. Li, D.J. Wilson, T.J. Larkin, P.M. Black (2019). Laboratory evaluation of cement and lime treated marginal greywacke aggregate.(ASCE) Journal of Transportation Engineering, Part B: Pavements, 145(3), 04019027.

        [12] W. Li, D.J. Wilson, T.J. Larkin, P.M. Black (2017). Permanent strain behavior of marginal granular materials.Transportation Research Record, 2655, 54-63.

        [13] G. Tao, Z. Wu,W. Li*, Y. Li, H. Dong (2021). Simplified Relation Model of Soil Saturation Permeability Coefficient and Air-Entry Value and Its Application.Fractal and Fractional, 5, 180.

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