English Version
团队成员
骨干教师

唐朝生

职称:教授
地址:江苏省南京市栖霞区仙林大道163号
电话:tangchaosheng@nju.edu.cn
传真:
邮箱:tangchaosheng@163.com
单位:南京大学
  • 个人简介
  • 发表的论文
  • 著作及成就

      研究方向:工程地质与城市环境岩土工程

      兴趣领域:

      极端气候工程地质作用及防灾减灾

      侧重极端干湿气候-土体相互作用过程、地质体工程性质响应、地质体稳定定性分析(边坡、路基、堤坝等)、地质体形变过程(地面沉降、地裂缝等)、灾变机理、评价方法、防灾减灾措施等,还涉及极端气候-土体相互作用理论模型与数值模拟研究

      城市环境岩土工程

      侧重污染土、污染场地的工程性质及固化修复技术

      微生物地质/岩土工程

      侧重微生物诱导方解石沉积技术(MICP)及其在地质工程和岩土工程领域的应用

      地质/岩土工程新型观测技术及应用

      侧重分布式光纤监测技术(BOTDR、BOTDA、FBG等)、高密度电阻率成像技术(ERT)、数字图像处理技术等在地质/岩土工程研究中的应用与分析

      固体废弃物处理处置

      侧重核废料地质处置库缓冲回填材料的热-水-力多场耦合作用特性、缓冲回填材料/围岩界面相互作用特性等(特别说明:该研究不涉及任何有毒有害物质)

      土质改良新技术

      侧重短丝离散纤维加筋技术、高分子有机固化技术和无机固化技术等对软弱土质的改性效果及机理、水-力耦合条件下纤维加筋土边坡的稳定性及破坏特征

      特殊土工程性质

      侧重复杂边界条件下膨胀土的胀缩变形、龟裂发育规律、黏土矿物-水作用机制、微观结构、抗拉强度等相关体变及力学性质

      非饱和土力学理论与工程应用

      侧重非饱和土吸力的测量与控制技术、非饱和土质边坡稳定性分析、非饱和土力学理论在地质/岩土工程中的应用等


    [1]. Chao-Sheng Tang*, Evan K Paleologos, Claudia Vitone, Yan-Jun Du, Jiang-Shan Li, Ning-Jun Jiang, Yong-Feng Deng, Jian Chu, Zhengtao Shen, Eugeniusz Koda, Andrea Dominijanni, Xunchang Fei, Magdalena Daria Vaverková, Piotr Osiński, Xiaohui Chen, Afshin Asadi, Maria RH Takeuchi, Myint Win Bo, Hossam Abuel-Naga, Eng-Choon Leong, Arvin Farid, Tugce Baser, Brendan C. O' Kelly, Bhagwanjee Jha, Venkata Siva Naga Sai Goli, Devendra N. Singh. Environmental Geotechnics: Challenges and Opportunities in the Post COVID-19 World. Environmental Geotechnics, https://doi.org/10.1680/jenge.20.00054

    [2]. Ni An, Chao-Sheng Tang*, De-Yin Wang, Bin Shi. Laboratory characterization of sandy soil water content during drying process using electrical resistivity/resistance method (ERM). Bulletin of Engineering Geology and Environment, Doi: 10.1007/s10064-020-01805-y

    [3]. Hao Zeng, Chao-sheng Tang*, Qing Cheng*, Cheng Zhu, Li-Yang Yin, Bin Shi. Drought induced soil desiccation cracking behavior with consideration of basal friction and layer thickness. Water Resources Research,https://doi.org/10.1029/2019WR026948

    [4]. Evan K Paleologos*, Brendan C. O' Kelly, Chao-Sheng Tang, Ken Cornell, J. Rodríguez-Chueca, Hossam Abuel-Naga, Eugeniusz Koda, Arvin Farid, Magdalena Daria Vaverková, Konstantinos Kostarelos, Venkata Siva Naga Sai Goli, S. Guerra-Rodríguez, Eng-Choon Leong, Prathyusha Jayanthi, B. S. Shashank, Susmita Sharma, Sowmya Shreedhar, Arif Mohammad, Bhagwanjee Jha, Ganaraj Kuntikana, Myint Win Bo, Abdel-Mohsen O. Mohamed, Devendra N. Singh. Post COVID-19 Water and Wastewater Management to Protect Public Health and Geoenvironment. Environmental Geotechnics, https://doi.org/10.1680/jenge.20.00067

    [5]. Chao Lv, Cheng Zhu, Chao-Sheng Tang*, Qing Cheng, Li-Yang Yin, Bin Shi. Effect of fiber reinforcement on the mechanical behavior of bio-cemented sand. Geosynthetics International, in press

    [6]. Jin-Jian Xu, Hao Zhang, Chao-Sheng Tang*, Qing Cheng*, Bo Liu, Bin Shi. Automatic Soil Desiccation Crack Recognition Using Deep Learning. Geotechnique, in press

    [7]. Kai-Wei Liu, Ning-Jun Jiang, Jun-De Qin, Yi-Jie Wang, Chao-Sheng Tang, Xiao-Le Han. An Experimental Study of Mitigating Coastal Sand Dune Erosion by Microbial- and Enzymatic-Induced Carbonate Precipitation. Acta Geotechnica. 2020, in press

    [8]. Chao-sheng Tang*, Luan Lin, Qing Cheng*, Cheng Zhu, Dong-wei Wang, Zhu-Yuan Lin, Bin Shi. Quantification and Characterizing of soil microstructure features by image processing technique. Computers and Geotechnics, in press.

    [9]. Hong-Sheng Wang, Chao-Sheng Tang*, Peng Wang, Kai Gu, Bin Shi and Hilary I. Inyang. Mechanical behavior of fiber-reinforced, chemically stabilized dredged sludge. Bulletin of Engineering Geology and the Environment, 2020, 79(2), 629–643. https://doi.org/10.1007/s10064-019-01580-5.

    [10]. Qing Cheng, Chao Zhou, Charles Wang Wai Ng, Chao-Sheng Tang*. Thermal effects on water retention behaviour of unsaturated collapsible loess. Journal of Soils and Sediments, 2020, 20(2): 756-762. https://doi.org/10.1007/s11368-019-02451-y.

    [11]. Qing Cheng, Chao-Sheng Tang*, Hao Zeng, Cheng Zhu, Ni An, Bin Shi. Effects of microstructure on desiccation cracking of a compacted soil. Engineering Geology, 2020, 265, 105418.

    [12]. Qing Cheng, Chao-Sheng Tang*, Cheng Zhu, Ke Li, Bin Shi. Drying-induced soil shrinkage and desiccation cracking monitoring with distributed optical fiber sensing technique. Bulletin of Engineering Geology and Environment, 2020,https://doi.org/10.1007/s10064-020-01809-8

    [13]. Qing Cheng, Chao Zhou*, Charles Ng, Chao-Sheng Tang. Effects of soil structure on thermal softening of yield stress. Engineering Geology, 2020, 269:105544.

    [14]. Bo Liu, Cheng Zhu, Chao-Sheng Tang*, Yue-Han Xie, Li-Yang Yin, Qing Cheng, Bin Shi. Bio-remediation of desiccation cracking in clayey soils through microbially induced calcite precipitation (MICP). Engineering Geology, 2020, 264, 105389. https: //doi.org/10.1016/j.enggeo.  2019. 105389.

    [15]. Ni An, Chao-Sheng Tang*, Qing Cheng, De-Yin Wang, Bin Shi. Application of electrical resistivity method in the characterization of 2D desiccation cracking process of clayey soil. Engineering Geology, 2020, 265, 105416.

    [16]. Ni An, Chao-Sheng Tang*, Qing Cheng, De-Yin Wang, Bin Shi. An experimental application of electrical resistivity/resistance method (ERM) to characterize the evaporation process of sandy soil. Physics and Chemistry of the Earth, 2020, 117, 102873. Doi: 10.1016/j.pce.2020.102873

    [17]. Yuping Zhang, Kai Gu*, Jinwen Li, Chaosheng Tang, Zhengtao Shen, Bin Shi. Effect of biochar on desiccation cracking characteristics of clayey soils. Geoderma, 2020, 364, 114182.

    [18]. Ning-Jun Jiang*, Chao-Sheng Tang, Toshiro Hata, Benoît Courcelles, Osama Dawoud, Devendra N. Singh. Bio-mediated soil improvement: The way forward. Soil Use Management, 2020, 36(2):185–188.. https ://doi.org/10.1111/sum.12571

    [19]. Chao‑Sheng Tang*, Li‑yang Yin, Ning‑jun Jiang, Cheng Zhu, Hao Zeng, Hao Li, Bin Shi. Factors affecting the performance of microbial‑induced carbonate precipitation (MICP) treated soil: a review. Environmental Earth Sciences, 2020, 79:94. https://doi.org/10.1007/s12665-020-8840-9

    [20]. Chao-sheng Tang*, Qing Cheng*, Ting Leng, Bin Shi, Hao Zeng, Hilary I. Inyang. Effects of wetting-drying cycles on mechanical behaviour of a clayey soil incorporating desiccation cracking. Catena, 2020, 194, 104721.

    [21]. Mark Vail, Cheng Zhu*, Chao-Sheng Tang, Nate Maute, Melissa Tababa Montalbo-Lomboy. Desiccation Cracking Behavior of Clayey Soils Treated with Bio-cement and Bottom Ash Admixture during Wetting-Drying Cycles. Transportation Research Record, 2020, https://doi.org/10.1177/0361198120924409. SCI, IF=0.75

    [22]. Chao-Sheng TANG, Qing CHENG*, Peng WANG, Hong-Sheng WANG, Yue WANG, Hilary I. Inyang. Hydro-mechanical behavior of fiber reinforced dredged sludge. Engineering Geology, 2020, 276, 105779.

    [23]. Cao, D.F., Shi, B., Zhu, H.H., Tang, C.S., Cao, D.F., Song, Z.P., Wei, G.Q. and Garg, A. Characterization of Soil Moisture Distribution and Movement Under the Influence of Watering-Dewatering Using AHFO and BOTDA Technologies. Environmental & Engineering Geoscience, 2019, 25(3), 189-202.

    [24]. Yue WANG, Hong-Sheng WANG, Chao-Sheng TANG *, Kai GU, Bin SHI. Remediation of heavy metal contaminated soils by biochar: a review. Environmental Geotechnics, 2019, https://doi.org/10.1680/jenge.18.00091.

    [25]. Qing Cheng, Charles Wang Wai Ng, Chao Zhou*, Chao Sheng Tang. A new water retention model considering pore non-uniformity and evolution of pore size distribution. Bulletin of Engineering Geology and the Environment, 2019, 78(7): 5055-5065. https://doi.org/10.1007/s10064-019-01476-4.

    [26]. Chao-Sheng TANG *, Sheng-Jiu Li, Dong-Wei Wang, Zhi-Guo Chen, Bin Shi, Hilary Inyang. Experimental simulation of boundary condition effects on bentonite swelling in HLW repositories. Environmental Earth Sciences, 2019, 78:135, DOI: 10.1007/s12665-019-8132-4.

    [27]. Ding-feng Cao *, Bin Shi *, Hong-hu Zhu *, Hilary Inyang, Guang-qing Wei, Yan Zhang, Chao-sheng Tang, 2019. Feasibility investigation of improving the modified Green–Ampt model for treatment of horizontal infiltration in soil. Water, 2019, 11, 645. doi:10.3390/w11040645

    [28]. Chao-Sheng Tang*, Cheng Zhu, Ting Leng, Bin Shi, Qing Cheng, Hao Zeng. Three-dimensional characterization of desiccation cracking behavior of compacted clayey soil using X-ray computed tomography. Engineering Geology, 2019, 255, 1-10.

    [29]. Hao-Da Li, Chao-Sheng Tang*, Qing Cheng, Sheng-Jie Li, Xue-Peng Gong, Bin Shi. Tensile strength of clayey soil and the strain analysis based on image processing techniques. Engineering Geology, 2019, 253, 137-148. https://doi.org/10.1016/j.enggeo.2019.03.017.

    [30]. Ning-Jun Jiang, Chao-Sheng Tang*, Li-Yang Yin, Yue-Han Xie, Bin Shi. Applicability of Microbial Calcification Method for Sandy Slope Surface Erosion Control. Journal of Materials in Civil Engineering, 2019, 31(11), p.04019250.

    [31]. Qing Cheng, Chao-Sheng Tang*. Coupled effects of matric suction and temperature on compression behaviour of loess. Environmental Geotechnics, 2019, https://doi.org/10.1680/jenge.18.00186.

    [32]. Hao Zeng, Chao-sheng Tang*, Qing Cheng*, Hilary I. Inyang, De-zheng Rong, Zhu-yuan Lin, Luan Lin, Bin Shi. Coupling effects of interfacial friction and layer thickness on soil desiccation cracking behavior. Engineering Geology, 2019, 260, 105220.

    [33]. Vail Mark, Cheng Zhu*, Chao-Sheng Tang, Luke Anderson, Michael Moroski, Melissa Montalbo-Lomboy. Desiccation Cracking Behavior of MICP-Treated Bentonite. Geosciences, 2019, 9(9), 385; doi:10.3390/geosciences9090385.

    [34]. Chao-Sheng Tang*, De-Yin Wang, Cheng Zhu, Qi-You Zhou, Shi-Kang Xu, Bin Shi. Characterizing drying-induced clayey soil desiccation cracking process using electrical resistivity method, Applied Clay Science, 2018, 152:101-112.

    [35]. An N., Hemmati S., Cui Y.J., Tang C.S. Numerical investigation of water evaporation from Fontainebleau sand in an environmental chamber. Engineering Geology, 2018, 234, 55-64.

    [36]. Lin-Lin Wang, Tang Chao-Sheng*, Bin Shi, Yu-Jun Cui, Guang-Qing Zhang, Inyang Hilary. Nucleation and propagation mechanisms of soil desiccation cracks. Engineering Geology, 2018, 238: 27-35.

    [37]. Ni An, Sahar Hemmati, Yu-jun Cui, Cindy Maisonnave, Isabelle Charles, Chao-sheng Tang. Numerical analysis of hydro-thermal behavior of Rouen embankment under climate effect. Computers and Geotechnics, 2018, 99:137-148.

    [38]. Ni An, Chao-Sheng Tang*, Shi-Kang Xu, Xue-Peng Gong, Bin Shi, Hilary Inyang. Effects of Soil Characteristics on Moisture Evaporation. Engineering Geology, 2018, 239, 126-135.

    [39]. Zhi-Guo Chen, Chao-Sheng Tang*, Cheng Zhu, Bin Shi, Yue-Miao Liu. Compression, swelling and rebound behavior of GMZ bentonite/additive mixture under coupled hydro-mechanical condition. Engineering Geology, 2017, 221: 50-60.

    [40]. Zhi-Guo Chen, Chao-Sheng Tang*, Zhengtao Shen, Yue-Miao Liu, Bin Shi. The geotechnical properties of GMZ buffer/backfill material used in high-level radioactive nuclear waste geological repository: a review. Environmental Earth Sciences, 2017, 76: 270. doi:10.1007/s12665-017-6580-2.

    [41]. Kai Gu, Fei Jin, Al-Tabbaa Abir, Bin Shi, Chao-Sheng Tang. Evaluation of Sulfate Resistance of Calcined Dolomite Activated Ground Granulated Blast Furnace Slag. Journal of Materials in Civil Engineering, 2016, 28(2):04015135.

    [42]. Chao-Sheng Tang*, Jian Li, De-Yin Wang, Bin Shi. Investigation on the interfacial mechanical behavior of wave-shaped fiber reinforced soil by pullout test. Geotextiles and Geomembranes, 2016, 44(6): 872-883.

    [43]. Chao-Sheng Tang*, De-Yin Wang, Bin Shi, Jian Li. Effect of wetting–drying cycles on profile mechanical behavior of soils with different initial conditions. CATENA, 2016, 139: 105-116.

    [44]. Chao-Sheng Tang*, Bin Shi, Yu-Jun Cui, De-Yin Wang. Tensile Strength of Fiber-Reinforced Soil. Journal of Materials in Civil Engineering, 2016, 28(7):04016031.

    [45]. De-Yin Wang, Chao-Sheng Tang*, Yu-Jun Cui, Bin Shi, Jian Li. Effects of wetting–drying cycles on soil strength profile of a silty clay in micro-penetrometer tests. Engineering Geology, 2016, 206: 60-70.

    [46]. De-Yin Wang, Chao-Sheng Tang*, Bin Shi, Jian Li. Studying the effect of drying on soil hydro-mechanical properties using micro-penetration method. Environmental Earth Sciences, 2016, 75(12):1009.

    [47]. Ye-Jiao Wang, Yu-Jun Cui, Anh-Minh Tang, Chao-Sheng Tang, Nadia Benahmed. Changes in thermal conductivity, suction and microstructure of a compacted lime-treated silty soil during curing. Engineering Geology, 2016, 202: 114-121.

    [48]. Nilo Cesar Consoli, Pedro Miguel Vaz Ferreira, Chao-Sheng Tang, Sérgio Filipe Veloso Marques, Lucas Festugato, Marina Bellaver Corte. A Unique Relationship Determining Strength of Silty/Clayey Soils-Portland Cement Mixes. Soils and Foundations, 2016, 56(6):1084-1090.

    [49]. Tang C.S., Pei X.J., Wang D.Y., Shi B., Li J. Tensile strength of compacted clayey soil. Journal of Geotechnical and Geoenvironmental Engineering,2015, 141(4): 04014122.

    [50]. Zhan W.F., Ju W.M., Hai S.P., Ferguson G., Quan J.L., Tang C.S., Guo Z., Kong F.H. Satellite-Derived Subsurface Urban Heat Island. Environmental Science & Technology, 2014, 48(20): 12134-12140.

    [51]. Zhu H.H., Zhang C.C., Tang C.S. (corresponding author), Shi B., Wang B.J. Pullout behavior of short fiber in reinforced soil. Geotextiles and Geomembranes, 2014, 42:329-338.

    [52]. Tang C.S., Shi B., Cui Y.J., Liu C., Gu K. Desiccation cracking behavior of polypropylene fiber reinforced clayey soil. Canadian Geotechnical Journal, 2012, 49(9): 1088-1101.

    [53]. Tang C.S., Tang A.M., Cui Y.J., Delage P., Schroeder C., De Laure E. Investigating the Swelling Pressure of Compacted Crushed Callovo-Oxfordian Argillite. Physics and Chemistry of the Earth, 2011, 36(17-18): 1857-1866.

    [54]. Tang C.S., Tang A.M., Cui Y.J., Delage P., Schroeder C., Shi B. Study of the hydro-mechanical behaviour of compacted crushed argillite. Engineering Geology, 2011, 118(3-4): 93-103.

    [55]. Tang C.S., Shi B., Liu C., Suo W.B., Gao L. Experimental characterization of shrinkage and desiccation cracking in thin clay layer. Applied Clay Science, 2011, 52(1-2): 69-77.

    [56]. Tang C.S., Cui Y.J., Shi B., Tang A.M., Liu C. Desiccation and cracking behaviour of clay layer from slurry state under wetting-drying cycles. Geoderma, 2011, 166(1): 111-118.

    [57]. Tang C.S., Shi B., Gao L., Daniels J. L., Jiang H.T., Liu C. Urbanization effect on soil temperature in Nanjing, China. Energy and Buildings, 2011, 43(11):3090-3098.

    [58]. Tang C.S., Shi B., Liu C., Gao L., Inyang H.I. Experimental investigation on the desiccation cracking behavior of soil layer during drying. Journal of Materials for Civil Engineering (ASCE), 2011, 23(6): 873-878.

    [59]. Tang C.S., Cui Y.J., Tang A.M., Shi B. Experiment evidence on the temperature dependence of desiccation cracking behavior of clayey soils. Engineering Geology, 2010, 114(3-4):261-266.

    [60]. Tang C.S., Shi B., Zhao L.Z. Interfacial shear strength of fiber reinforced soil. Geotextiles and Geomembranes, 2010, 28(1):54-62.

    [61]. Tang C.S., Shi B., Liu C., Zhao L.Z., Wang B.J. Influencing factors of geometrical structure of surface shrinkage cracks in clayey soils. Engineering Geology, 2008, 101(3-4): 204-217.

    [62]. Tang C.S.,Shi B., Gao W., Chen F., Cai Y. Strength and mechanical behavior of short polypropylene fiber reinforced and cement stabilized clayey soil. Geotextiles and Geomembranes, 2007, 25(2):194-202.

    [63]. Cui Y.J., Tang C.S., Tang A.M., Ta A.N. Investigation of soil desiccation cracking using an environmental chamber. Rivista italiana di geotechnical, 2014,1: 9-20.

    [64]. Gu K., Tang C.S., Shi B., Hong J.J., Jin F. A study of the effect of temperature on the structural strength of a clayey soil using a micropenetrometer. Bulletin of Engineering Geology and the Environment, 2014, 73(3):747-785.

    [65]. Wu J.H., Tang C.S., Shi B., Gao L., Jiang H.T., Daniels J.L. Effect of ground covers on soil temperature in urban and rural areas. Environmental & Engineering Geoscience, 2014, 20(3):225-237.

    [66]. Liu C., Shi B., Shao Y.X., Tang C.S.Experimental and numerical investigation of the effect of the urban Heat island on slope stability. Bulletin of Engineering Geology and the Environment, 2013, 72(3-4):303-310.

    [67]. Liu C., Tang C.S., Shi B., Suo W.B. Automatic quantification of crack patterns by image processing. Computers & Geosciences, 2013, 57:77-80.

    [68]. Liu C., Shi B., Tang C.S., Gao L. A numerical and field investigation of underground temperatures under Urban Heat Island. Building and Environment, 2011, 46: 1205-1210.

    [69]. Liu C., Shi B., Tang C.S. Quantification and characterization of microporosity by image processing, geometric measurement and statistical methods: application on SEM images of clay materials. Applied Clay Science, 2011, 54:97-106.

    [70]. Shi B., Tang C.S., Gao L., Liu C., Wang B.J. Observation and analysis of the urban heat island effect on soil in Nanjing, China. Environmental Earth Sciences, 2012, 67:215-229.

    [71]. Gao L., Shi B., Zhu Y.Q., Wang K., Sun Y.J., Tang C.S. A distributed soil temperature measurement system with high spatial resolution based on BOTDR. Optica Applicata, 2011, 41(3): 607-616.

    [72]. Gao L., Shi B., Zhu Y.Q., Wang K., Sun Y.J., Tang C.S. A distributed soil temperature measurement system with high spatial resolution based on BOTDR. Optica Applicata, 2011, 41(3): 607-616.

    [73]. Cai Y., Shi B., Charles W.W. Ng, Tang C.S. Effect of polypropylene fiber and lime admixture on engineering properties of clayey soil. Engineering Geology, 2006, 87(3):230-240.


      2020黄汲清青年地质科学技术奖--地质科技研究者奖

      2020陈嘉庚青年科学奖

      2019年度国家杰出青年科学基金建议资助项目申请人

      2018国家科技进步一等奖

      2014中国地质学会,青年地质科技奖-金锤奖

      2014优秀青年科学基金

      2012国际工程地质与环境协会(IAEG),Richard-Wolters奖中国唯一提名

      2012中国地质学会工程地质专业委员会,第一届谷德振青年科技奖

      2012中国产学研合作创新成果奖

      2007南京大学交通控股奖学金

      2007南京大学优秀研究生

      2006南京大学交通控股奖学金

      2006南京大学优秀研究生标兵

      2005南京大学优秀研究生奖学金

      2004南京大学光华二等奖学金

      2003本科优秀毕业论文

      国家杰出青年科学科学基金项目,极端气候工程地质,主持

      优秀青年科学基金项目,工程地质学,主持

      国家自然科学基金面上项目,膨胀土龟裂的形成机理及其对工程性质的影响研究,主持

      江苏省自然科学基金面上项目,膨胀土龟裂形成过程的力学机制及抑制技术研究,主持

      教育部高等学校博士学科点专项科研基金项目,干湿循环条件下膨胀土龟裂的形成及演化规律研究,主持

      国家自然科学基金重点项目,基于分布式感测的多场作用下土体结构系统变形响应和灾变机理研究,参加

      国家“十二五”科技支撑计划课题,地质灾害光纤传感监测技术研发与示范,参加

      江苏省自然科学基金面上项目,遥感支持下城市地下热环境的时空格局与剖面耦合研究,参加

      国防科工委项目,基于地球物理成像法的场址区主要断裂带导水特性研究,参加

      国家自然科学青年基金项目,车载与温度作用下越江公路隧道周围软粘土响应与工程性质演化研究,参加

      国家自然科学基金重点项目,城市“热岛”效应环境中土体工程性质变化及其灾害效应研究,参加

      法国ARGIC项目,Study on the mechanisms of shrinkage-swelling behavior of expansive soils参加

      法国ANDRA项目,Thermo-hydro-mechanical behaviour of swelling clays used in nuclear waste disposals,参加

      国家自然科学基金面上项目,人为土的工程分类与利用研究,参加

      国家杰出青年科学基金项目,土体结构系统研究,参加


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