土木工程系
办公电话:021-34207003
电子邮件:lmg20066028@sjtu.edu.cn
通讯地址:上海市闵行区东川路800号木兰楼A410
2019.12-至今 学院 be365体育平台 副研究员,博士生导师
2016.09-2019.12 学院 be365体育平台 助理研究员
2010.09-2016.03 学院土木工程系就读 (2016.03获工学博士学位)导师:夏小和教授,王建华教授
2006.09-2010.07 重庆大学土木工程学院 (2010.07获工学学士学位)
1.软土地下工程降水开挖的环境效应
2.深部地下水抽灌对区域地层的影响
3.宏-微观流固耦合多尺度算法及数值分析
中国土木工程学会市政工程分会理事
中国土木工程学会土力学及岩土工程分会委员
上海市地质学会城市地质委员会委员
中国建筑学会会员
上海市土木工程学会会员
主持纵向项目:
国家自然科学基金面上项目,考虑弱透水层渗透性尺度效应及渗透演化的超深基坑变形机制研究(52278361),2023.1-2026-12,项目负责人
国家自然科学基金面上项目,考虑卸荷与渗流作用下深部土多尺度力学行为的软土地层变形机制研究(41977216),2020.1-2023.12,项目负责人
国家自然科学基金青年基金,地下工程降水开挖对区域地层变形作用机制的多尺度耦合分析(41602283),2017.01-2019.12,项目负责人
上海市自然科学基金面上项目,卸荷与渗流联合驱动的深部黏土渗透与变形特性耦合机制研究(22ZR1430800),2022.4-2025.3,项目负责人
上海市青年科技启明星计划,软土地区特深竖井受力变形特性及环境影响评估研究(19QC1400800),2019.4-2022.3,项目负责人
上海市闵行区重要产学研项目,盾构远程监控管理软件(2019MHC102),2019.5.31-2020.12.31,项目负责人
主持横向项目:
上海城市建设设计研究总院有限公司,城市更新与地下空间改扩建工程设计与施工关键技术研究,2020.8.1-2021.12.31,项目负责人
上海市地质调查研究院,上海陆域深层地下空间开发利用综合地质调查特殊土工试验测试,2019.6-2019.12,项目负责人
上海市地质调查研究院,上海中心城区地下空间资源探测特殊土工试验测试,2018.6-2018.12,项目负责人
上海市地质调查研究院,上海后工业时期地质-资源-环境调查评价特殊土工试验测试,2018.9-2018.12,项目负责人
上海公路桥梁(集团)有限公司,大口径钢筋混凝土顶管施工环境影响测试研究,2019.3-2020.2,项目负责人
参与国家自然科学基金项目:
国家自然科学基金重点基金,滨海软土地区深大基坑群施工过程致灾机理及预警控制研究(41330633),2014.01-2018.12,主要参加人
国家自然科学基金重大仪器专项,卸荷与渗流联合驱动的软土小应变真三轴试验系统(41727802), 2018.01-2022.12, 主要参加人
国家自然科学基金面上基金,深基坑降水作用下远场土层变形机理研究(41472250),2015.01-2018.12,主要完成人
国家自然科学基金青年基金,非一致地震激励下长隧道多尺度动力分析方法(51208296),2013.01-2015.12,主要完成人
五篇代表作:
[1] Li, M. G., Chen, J. J., Xia, X. H., Zhang, Y. Q., and Wang, D. F. 2020. Statistical and hydro-mechanical coupling analyses on groundwater drawdown and soil deformation caused by dewatering in a multi-aquifer-aquitard system. Journal of Hydrology 589: 125365. doi: https://doi.org/10.1016/j.jhydrol.2020.125365. (SCI,JCR:Q1,IF:5.72)
[2] Li, M. G., Demeijer O. , and Chen, J. J. (2020). "Effectiveness of servo struts in controlling excavation-induced wall deflection and ground settlement." Acta Geotechnica, 15 (9), 2575-2590. (SCI,JCR:Q1,IF:5.86)
[3] Li, M. G.(通讯作者), Xiao, X., Wang, J. H., and Chen, J. J. (2019). "Numerical study on responses of an existing metro line to staged deep excavations." Tunnelling and Underground Space Technology, 85, 268-281. (SCI,JCR:Q1,IF:5.91)
[4] Li, M.-G., Chen, J.-J., Xu, Y.-S., Tong, D.-G., Cao, W.-W., and Shi, Y.-J. 2021. Effects of groundwater exploitation and recharge on land subsidence and infrastructure settlement patterns in Shanghai. Engineering Geology 282. doi: 10.1016/j.enggeo.2021.105995.(SCI,JCR:Q1,IF:6.75)
[5] Li, M. G., Yu, H. T., Wang, J. H., Xia, X. H., and Chen, J. J. (2015). "A multiscale coupling approach between discrete element method and finite difference method for dynamic analysis." International Journal for Numerical Methods in Engineering, 102(1), 1-21. (SCI,JCR:Q1,IF:3.48)
其他SCI期刊论文
[6] Li, M. G., Chen, J. J., Wang, J. H., and Zhu. Y. F. (2018). "Comparative study of construction methods for deep excavations above shield tunnels." Tunnelling and Underground Space Technology, 71, 329-339.
[7] Li, M. G., Zhang, Z. J., Chen, J. J., Wang, J. H., and Xu, A. J. (2017). "Zoned and staged construction of an underground complex in Shanghai soft clay." Tunnelling and Underground Space Technology, 67, 187-200.
[8] Li, M. G., Chen, J. J., and Wang, J. H. (2017). "Arching effect on lateral pressure of confined granular material: numerical and theoretical analysis." Granular Matter, 19(2), 20.
[9] Li, M. G., Wang, J. H., Chen, J. J., and Zhang, Z. J. (2017). "Responses of a Newly Built Metro Line Connected to Deep Excavations in Soft Clay." Journal of Performance of Constructed Facilities, 31(6), 04017096.
[10] Li, M. G., Chen, J. J., Xu, A. J., Xia, X. H., and Wang, J. H. (2014). "Case Study of Innovative Top-Down Construction Method with Channel-Type Excavation." Journal of Construction Engineering and Management, 140(5), 05014003.
[11] Zhang, Y.Q., Wang, J.H., Chen, J.J., and Li, M.G.(通讯作者) 2017. Numerical study on the responses of groundwater and strata to pumping and recharge in a deep confined aquifer. Journal of Hydrology 548: 342-352. doi: 10.1016/j.jhydrol.2017.03.018.
[12] DEMEIJER, O., Chen, J. J., Li, M. G. (通讯作者) and Wang, J. H. (2017). “Influence of passively loaded piles on excavation-induced diaphragm wall displacements and ground settlements”. International Journal of Geomechanics, 18(6), 04018052..
[13] Zeng F. Y., Zhang, Z. J., Wang, J. H. and Li, M. G. (通讯作者) (2018) Observed performance of two adjacent and simultaneously excavated foundation pits in soft clay”. Journal of Performance of Constructed Facilities, (DOI: 10.1061/(ASCE)CF.1943-5509.0001184)
[14] Zhang, Y. Q. Wang, J. H. and Li, M. G. (通讯作者) (2018). “Effect of dewatering in a confined aquifer on ground settlement in deep excavations” International Journal of Geomechanics, 18(10), 04018120.
[15] Shi, Y. J., Xiao, X., Li, M. G. (通讯作者) (2018). “Long-term longitudinal deformation characteristics of the metro lines in soft soil area” Journal of Aerospace Engineering, 31(6), 04018080.
[16] Shi, Y. J., Li, M. G. (通讯作者), Zhang, Y. Q., Li, J., Wang, J. H. (2018) “Field investigation and prediction for responses of far-field ground and groundwater to pumping artesian water in deep excavations.” International Journal of Geomechanics, 18(10), 04018132.
[17] Shi, Y. J., Li, M. G. (通讯作者), Chen, J. J. and Wang, J. H. (2018). “Long-term settlement behavior of a highway in land subsidence area.” Journal of Performance of Constructed Facilities, 32(5), 04018063.
[18] Xiao, X., Chen, J. J., Li, M. G. (通讯作者) and Wang, J. H. (2018). “Field monitoring of an existing cut-and-cover tunnel between two large-scale deep excavations.” Journal of Aerospace Engineering, 31(6), 04018082.
[19] Xiao, X., Li, M. G. (通讯作者), Wang, J. H., Chen, J. J. (2018) “Numerical evaluation of control measures for tunnel deformation induced by an oversized deep excavation.” Journal of Aerospace Engineering, 31(6), 04018109.
[20] Xiong, G. J., Chen J. J., and Li M. G. (通讯作者) (2019). "General Axisymmetric Active Earth Pressure Obtained by the Characteristics Method Based on Circumferential Geometric Condition." SCIENCE CHINA Technological Sciences, online
[21] Li, J., Njock, P.G.A., Li, M.G. (通讯作者), Chen, J.J., and Xia, X.H. 2020. Consolidation responses of rheological aquitards to tide-induced groundwater fluctuations in coastal soft deposits. Applied Ocean Research 100. doi: 10.1016/j.apor.2020.102156.
[22] Li, J., Chen, J. J., Li, M. G. (通讯作者) et al. Well hydraulics of temporally varying artificial recharge with well clogging in confined aquifers. Arabian Journal of Geosciences 13, 867 (2020). https://doi.org/10.1007/s12517-020-05898-3
[23] Li, J., Xia, X.-H., Li, M.-G., Chen, J.-J., and Zhan, H. 2020. Nonlinear drainage model of viscoelastic aquitards considering non-Darcian flow. Journal of Hydrology 587: 124988. doi: https://doi.org/10.1016/j.jhydrol.2020.124988.
[24] Li, J., Chen, J.-J., Zhan, H., Li, M.-G., and Xia, X.-H. 2020. Aquifer recharge using a partially penetrating well with clogging-induced permeability reduction. Journal of Hydrology 590: 125391. doi: https://doi.org/10.1016/j.jhydrol.2020.125391.
[25] Xiong, G. J., Chen, J. J., Wang, J. H., and Li, M. G. “A new axisymmetric slip line theory for metal and its application in indentation problem.” Journal of Engineering Mechanics, online.
[26]Li, J., Li, M.-G., Zhang, L.-L., Chen, H., Xia, X.-H., Chen, J.-J. “Experimental Study and Estimation of Groundwater Fluctuation and Ground Settlement due to Dewatering in a Coastal Shallow Confined Aquifer.” Journal of Marine Science Engineering, online
[27] Chen, J. J., Li, M. G., and Wang, J. H. (2017). "Active Earth Pressure against Rigid Retaining Walls Subjected to Confined Cohesionless Soil." International Journal of Geomechanics, 17(6).
[28] Zhang, Y. Q., Li, M. G., Wang, J. H., Chen, J.-J., and Zhu, Y.-F. (2017). "Field tests of pumping-recharge technology for deep confined aquifers and its application to a deep excavation." Engineering Geology, 228, 249-259.
[29] Zhang, Z. J., Li, M. G., Chen, J. J., Wang, J. H., and Zeng, F. Y. (2017). "Innovative Construction Method for Oversized Excavations with Bipartition Walls." Journal of Construction Engineering and Management, 143(8).
[30] Chen, J. J., Zhu, Y. F., Li, M. G., and Wen, S. L. (2015). "Novel Excavation and Construction Method of an Underground Highway Tunnel above Operating Metro Tunnels." Journal of Aerospace Engineering, 28(6).
中文期刊论文
[1] 李明广, 陈锦剑, 辛庆胜, 王建华 (2015). "考虑土体小应变特性的桩基动刚度拟静力计算方法." 中国水利水电科学研究院学报(03), 217-221.
[2] 李明广, 禹海涛, 王建华, 袁勇, 陈锦剑 (2015). "离散-连续多尺度桥域耦合动力分析方法." 工程力学(06), 92-98.
[3] 李明广, 陈锦剑, 徐安军, 董锋, 王建华 (2015). "深基坑开挖与紧邻运营铁路的相互影响分析." 地下空间与工程学报(02), 435-439.
[4] 曾凡云, 李明广, 陈锦剑, 王建华 (2017). "基坑群监测数据与施工信息动态同步分析系统的开发与应用." 学院学报(03), 269-276.
[5] 冉岸绿, 李明广, 陈锦剑, 王建华 (2016). "共用地下连续墙深基坑影响下地铁车站与隧道节点变形分析." 隧道建设(07), 844-850.
[6] 史玉金,李明广,吴威,王建华.上海地铁4号线隧道长期纵向变形特征分析与安全评估[J].隧道建设(中英文),2018,38(S1):1-6.
会议论文
[1] Li, M. G., Chen, J. J., Xu, A. J., and Wang, J. H. "Performance of a deep top-down excavation under operating railway." Proc., 2014 GeoShanghai International Congress: Tunneling and Underground Construction, American Society of Civil Engineers (ASCE), 965-973.
[2] Wang, J. H., Chen, J. J., and Li M. G. (2015). "Concept and characters of deep excavation groups in urban underground space development." The 15th Asian Regional Conference on Soil Mechanics and Geotechnical EngineeringJapanese, 1559-1562.
[3] Zhou, L., Zhang, Z. J., Li, M. G., Wang, J. H., and Chen, J. J. (2015). Design and Performance of a Deep Excavation Sharing a Common Wall with a Metro Station in Service.
[4] Zhu, Y. F., Li, M. G., Pan, W. Q., Chen, J. J., and Wang, J. H. "Numerical study on the interactive behavior of two adjacent excavations sharing the same diaphragm wall." Proc., 2014 GeoShanghai International Congress: Tunneling and Underground Construction, May 26, 2014 - May 28, 2014, American Society of Civil Engineers (ASCE), 818-828.
[5] 李明广, 徐安军, 董锋, 陈锦剑, 王建华 (2012). "逆作土方运输效率对运营高铁和基坑变形的影响." 岩土工程学报, 34(S1), 134-138.
[6] 李明广, 徐安军, 董锋, 陈锦剑, 王建华 (2014). "下穿运营高铁及地铁的交通枢纽深基坑数值分析." 岩土工程学报, 36(S2), 386-390.
[1] 《高等土力学》(主讲:徐永福教授;辅讲:叶冠林教授、李明广副研究员)
[2] 研究生培养:完成协作指导博士生3名,硕士生5名,正在协作指导博士生3名、硕士生3名。
[3] 本科生科研立项:指导上海大学生创新活动计划项目“上海市区域地层变形及其对地下重大设施影响分析”(学生2人)。
[4] 本科生科研立项:指导上海大学生创新活动计划项目“基坑工程中伺服钢支撑的变形控制效果研究”(学生3人)。
[5] 2015级本科生班主任。
[6] 指导本科毕业设计4人/次。
授权发明专利:
[1] 李明广,徐云峰,陈锦剑,等. 折叠式土方运输机实时监控系统与方法. 专利号: ZL 201210206452.6.
[2] 李明广,张扬清,王大发,等. 基坑施工中承压水降水对周边环境影响的预测方法. 专利号:ZL 201810285164.1.
[3] 李明广,张扬清,王建华. 一种采用地下水回灌控制降水对环境影响的方法. 专利号:ZL 20181028517.1.
[4] 熊国军,王建华,李明广. 圆形基坑分层开挖支护侧压力测试的模型试验系统与方法. 专利号:ZL 201710441219.9.
[5] 侯永茂,马元,李明广,等. 盖挖法中用于安装钢支撑的系统及方法. 专利号:ZL 201810047314.5
[6] 陈锦剑,黄彪,侯永茂,李明广, 等. 一种考虑墙土耦合的深基坑围护墙受力变形快速计算方法. 专利号:ZL 201810170432.5
登记软件
[1] 李明广,黄彪,陈锦剑,王建华. 考虑伺服系统调控下的弹性地基梁算法软件,软件著作权,2017. (登记号:2017SR301248 )
[2] 李明广,陈锦剑,王建华,曾凡云. 考虑土与结构共同作用的基坑围护结构设计分析软件,软件著作权,2016. (登记号:2016SR274453)
[3] 李明广,禹海涛. 连续-离散多尺度动力分析软件(CDMDAS Version 1.0), 软件著作权,2014. (登记号:2014SR189735)
[4] 陈锦剑,李明广,王雄*,张璐璐,黄彪. 伺服钢支撑作用下基坑围护结构受力变形计算程序软件(SDDESS),软件著作权,2019. (登记号:2019SR0436360)
[5] 陈锦剑,王雄,李明广,徐中华,陈立生. 相邻型基坑群围护结构变形计算程序软件(DDAE),软件著作权,2019. (登记号:2019SR0440136)
[6] 黄彪,李明广,陈锦剑,王建华. 考虑支撑预应力对地连墙变形影响的弹性地基梁算法软件,软件著作权,2017. (登记号:2017SR601103)
[7] 曾凡云,陈锦剑,王建华,李明广. 基坑施工信息与检测数据可视化记录软件,软件著作权,2016. (登记号:2016SR274451 )
[8] 曾凡云,李明广. 基坑群实测数据分析软件(DEMIE Version 1.0),软件著作权,2016. (登记号:2016SR31198)
人才计划:
2019年 入选学院“晨星-讲师支持计划”
2019年 入选“上海市青年科技启明星计划”
科研奖励:
2020年 获上海市科技进步奖一等奖 完成人:陈锦剑,徐中华,李明广,等
2022年 获上海市科技进步奖一等奖 完成人:王如路,贾坚,梁发云,谢小林,徐磊,李明广,等
2022年 获江西省科技进步奖一等奖 完成人:徐长节,方涛,李明广,等
荣誉称号:
2019年 be365体育平台“优秀共产党员”荣誉称号
2018年 获学院“黄金枝奖研金” 二等奖
2018年 获学院“青年岗位能手”称号
2016年 获学院“黄金枝奖研金” 三等奖
2016年 获学院优秀博士毕业生荣誉称号
2015年 获博士研究生国家奖学金
