基本情况
姓 名: |
李旭 |
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职 务: |
路基与基础工程研究所所长 |
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职 称: |
教授 |
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学 历: |
研究生 |
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学 位: |
博士 |
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通信地址: |
北京海淀上园村3号北京交通大学土建学院 |
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邮 编: |
100044 |
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办公电话: |
51683902 |
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电子邮箱: |
教育背景
李旭(xuli@bjtu.edu.cn),北京交通大学土建学院岩土工程系教授,博导,路基与基础研究所所长。
入选国家“万人计划”青年拔尖人才;获中国力学学会首届“黄文熙-陈宗基”岩土力学青年奖和中国土木工程学会第十五届“茅以升土力学及岩土工程青年奖”。
主要从事寒区岩土工程灾害防治及隧道掘进机智能化等方面的科研工作。研究成果在Applied Thermal Engineering, Computers and
Geotechnics, Cold Regions Science and Technology, 岩土工程学报等国内外权威学术期刊发表论文100余篇,其中近5年SCI论文53篇(第一和通讯作者论文26篇、JCR-Q1区论文40篇)、SCI他引1226次,单篇引用超过100次论文5篇,ESI高被引论文2篇;获中国大坝工程学会第十届“汪闻韶”院士青年优秀论文等论文奖4项;授权发明专利9项、软件著作权4项;出版学术专著3部、教材2本。 先后主持国家重点研发计划“战略性科技创新合作专项”项目1项、国家高端外国专家引智计划项目1项,国家自然基金青年及面上项目3项、北京市自然基金面上项目3项。
1997-2001年,清华大学水利系,取得学士学位; 2001-2004年,师从清华大学水利系徐千军教授,陈祖煜院士,取得硕士学位; 2004-2009,师从香港科技大学张利民教授,取得土木工程专业博士学位。 |
工作经历
2016.12 - 现在 北京交通大学岩土工程系 博导、教授 2009.9 - 2016.12 北京交通大学岩土工程系 硕导、副教授 2011.6 - 2012.8 西澳大利亚大学近海研究中心,Research Assistant Professor, 合作教授:Yuxia Hu & David White 2009.1 - 2009.9 香港科技大学土木系 博士后 |
研究方向
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招生专业
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科研项目
【人才项目】 l 教育部: 第六批国家高层次人才支持计划"青年拔尖人才"项目, 2022-2024 l 北京市教委: 北京高校青年英才计划-李旭, 2013-2015
【科研和咨询项目】
l
国家重点研发计划 战略性科技创新合作项目 基于人工智能的长大隧道围岩信息识别及TBM掘进自动控制关键技术研究2022-2024 l 国家自然科学基金“面上”: 非饱和宽级配土冻结变形机理特性及本构模型研究, 2020-2023 l 其他部市(2020.10起仅限省部级科技计划\基金\专项): TBM、盾构施工人工智能辅助决策系统关键技术研究, 2021-2023 l 铁路总公司(原铁道部): 岛状多年冻土区高速铁路路基建造关键技术研究, 2020-2023 l 北京市自然基金“面上”: 垃圾填埋场新型岩土覆盖层的防渗性能研究, 2019-2021 l 国家自然科学基金“面上”: 非饱和土渗流计算收敛准则及细粒-粗粒土毛细隔离层的防渗机理和设 计理论, 2015-2018 l 国家自然科学基金"青年基金": 降雨条件下崩残积土强度软化规律的实验和理论研究, 2012-2014 l 北京市自然基金面上项目:非饱和土渗流分析的数值收敛准则及其数值分析方法研究,2015-2017 l 教育部高等学校博士点基金: 砾石-粘土复合岩土隔离层的防渗机理研究, 2012-2014 |
教学工作
招生情况 招收 岩土工程方向 硕士生(3~4名/年) 和 博士生 (1名/年) 可担任 土木工程方向 本科生导师 、大创指导教师、本科生毕业设计导师、大学生竞赛导师 招生要求: 求真求知,勤奋好学,志存高远
授课情况 讲授本科生课程《土力学》, 研究生课程《非饱和土力学》《工程可靠度分析》; 讲授涉外双语教学课程《Subgrade and Geology》;硕士国际班英语课程《Advanced soil mechanics》;本科留学生课程《Soil Mechanics》 2011年, 2013年获北京交通大学青年教师教学比赛院一等奖,校三等奖。 李旭2015年度被评为北京交通大学优秀班主任。
指导本科生成果展示
指导硕士生成果展示
年级
姓名
学术成果
2021级
于策
于策, 李旭, 吴永康, 魏少伟, 蔡德钩.毛细导水布料排水性能及孔隙结构试验研究. 工程地质学报, 2022, 30(5): 1494-1503.
2020级
姚敏
1. Li X., Yao M.,
Yuan J.D., Wang Y.J*., Li P.Y., 2022. Deep learning characterization of rock conditions
based on tunnel boring machine. Underground Space,12, 89–101.https://doi.org/10.1016/j.undsp.2022.10.010
2. 姚敏,李旭,原继东,王玉杰,李鹏宇.基于TBM破岩数据的岩体条件深度学习表征方法. 地球科学, 2023, 48(05):1908-1922.
3. 李旭;姚敏;陈祖煜;等. 一种隧道掘进响应参数的预测方法[P] 发明专利.
ZL 2022 1 0705545.7
2020级
李海波
1. Li, X., Li, H.B., Du, S.Z*., et al., 2022. Cross-project utilization of
Tunnel Boring Machines (TBM) construction data: A case study using big data
from Yin-Song Diversion Project in China. Georisk: Assessment &
Management of Risk for Engineered Systems & Geohazards.
https://doi.org/10.1080/17499518.2023.2184834
2. 李海波,李旭*,王双敬等. TBM破岩关键参数跨工程转换关系,地球科学. 2022.
3. 李旭,李海波,王玉杰等,一种基于机器学习的TBM新建工程数据增强方法[P]. 发明专利:ZL 2022 1 0963204.X
4. 李旭,李海波,王双敬等,一种基于掘进载荷预测的TBM控制参数决策方法[P]. 发明专利:ZL 2022 1 0675433.1
2019级
王昊
Wang H., Wu Y.K.*, Wang M., Li X. 2022. Influence
of fines content and degree of saturation on the freezing deformation
characteristics of unsaturated soils. Cold Regions Science and Technology, 201:
103610.
2019级
张志远
1. Li,
X., Zhang, Z., Zhang, L., Zhang, L., Wu, L., 2021. Combining two
methods for the measurement of hydraulic conductivity over a wide suction
range. Computers and Geotechnics, 135, 104178.
2. Zhang
Z., Li, X, Wu YK* , Li, XK.,2022. Stable
expression and control parameters in the numerical simulation of unsaturated
flow. Front. Struct. Civ. Eng, 16(12): 1501–1514
2019级
刘阿强
1. 李旭,刘阿强等.全吸力范围内土水特征曲线的快速测定方法.岩土力学,2022(EI)
2. 刘阿强,李旭等.全吸力范围内渗透系数快速测定方法研究.岩土力学,2022(EI)
2017级
刘洋
1. 刘洋,李旭(*),吴琼,郑双飞. 单一粒径组碎石道砟颗粒破碎规律试验研究. 铁道学报.
2017级
史新
1. 史新, 庞康, 李旭(*)等. 宽级配砾质土防渗性能研究. 岩土工程学报. 2018 (EI)
2015级
王菲
1. Wang
F, Li X .*,
et al. A discussion on the design criteria of capillary barrier.
[C]. Unsat2018, Hong Kong.
2014级
吴羊
1. Li
X.*, Wu Y., et al. Comparison of Wetting Front Advancing
Method and Instantaneous Profile Method for the Hydraulic Conductivity
Measurements. [C]. GeoShanghai International Conference (pp. 47-53).
Springer, Singapore.
2. 刘丽, 吴羊, 陈立宏, 刘建坤.. 基于数值模拟的湿润锋前进法测量精度分析. 岩土力学. (EI)
3. 刘丽,吴羊,李旭,赵煜鑫. 压实度对宽级配土水力特性的影响研究. 岩土力学
2013级
白青波
1. 白青波,李旭(*)等. 路基温度场长期模拟中的地表热边界条件研究. 岩土工程学报, 2015(EI,被引21次)
2. 白青波,李旭(*)等. 冻土水热耦合方程及数值模拟研究. 岩土工程学报, 2015(EI, 被引63次)
2011级
赵学文
1. 李旭,赵学文等, 温控体变仪, 发明专利. 2015.
2. Zhao
XW; LI X(*)
et al. Mesh size dependent process of wetting front advancing in unsaturated
soil column. [C]. The 6th International Conference on Unsaturated Soils.
Sydney, Austrilia. 2014
3. Zhao
XW; LI X(*)
etc. The effect of confining boundary on soil deformation in one dimensional
frost heave tests and the theoretical volume correction [J]. Sciences in Cold
and Arid Regions. 2013.
2011级
徐锦斌
1. 徐锦斌,杨辉等. 不对称土岩组合对深基坑支护变形的影响[J]. 建筑技术,2014.
2. 王雨,徐锦斌等. 隧道下穿引起地下管线下沉的主控因素分析[J]. 中国安全生产科学技术,2014.
指导博士生成果展示
年级
姓名
学术成果
2022级
郑双飞
1. Zheng S.F., Liu Y., Zhang
N., Li X., et al. 2022. Experimental studies on shape and size effects on
particle breakage of railway ballast[J]. Transportation Geotechnics, 37:
100883.
2. Li, X, Zheng S.F., Wang M., Liu A.Q. 2023. The prediction of the soil freezing
characteristic curve using the soil water characteristic curve. Cold Regions
Science and Technology, 212: 103880.
2020级
赵煜鑫
1. 赵煜鑫, 李旭(*), 林森等. 广吸力范围内一种改进的非饱和土抗剪强度模型. 岩土力学,2023,44(04):990-1000.DOI:10.16285/j.rsm.2022.0975.
2. 赵煜鑫, 李旭, 赵红芬等. 宽饱和度范围非饱和土抗剪强度指标的演化模型. 岩土力学,1-12.https://doi.org/10.16285/j.rsm.2023.0392.
3. 赵煜鑫, 张禄乾, 李旭(*)等. 宽饱和度范围非饱和粗细混合土的强度演化规律:试验现象. 岩土工程学报,1-11.
4. 赵煜鑫, 刘艳, 李旭(*)等. 非饱和黏性土抗剪强度模型对比分析及参数确定方法. 岩土工程学报, ,2022,44(S1):126-131.
2020级
李晓康
1. Li, X. K., Li, X., Wu, Y., Gao, L. 2023. A novel
unsaturated drainage layer in capillary barrier cover for slope protection.
Bulletin of Engineering Geology and the Environment, 82(4):108
2. Li, X., Li, X. K. 2023. A soil
freezing-thawing model based on thermodynamics. Cold Regions Science and
Technology, 211, 103867.
3. Li, X. K., Li, X., Liu, S., et al. 2023.
Thermal-seepage coupled numerical simulation methodology for the artificial ground
freezing process. Computers and Geotechnics, 156, 105246.
4. Li, X., Li, X. K., Wu, Y. K., et al. 2022. Selection criteria
of mesh size and time step in FEM analysis of highly nonlinear unsaturated
seepage process. Computers and Geotechnics, 146, 104712.
5. Li, X. K., Li, X., Wang, F., et al. 2022.
The design criterion for capillary barrier cover in multi-climate
regions. Waste Management, 149, 33-41.
6. 李晓康, 李旭, 王菲,等. 毛细阻滞覆盖层储水能力和击穿时间试验研究[J]. 岩石力学与工程学报, 2022(007):041.
7. 李旭,李晓康,柴玉卿,等.一种富水地层路基防冻胀结构[P]. 发明专利,ZL202011210127.8
2019级
武雷杰
1. Li, X., Wu, L. J., Wang, Y. J. & Li, J. H. 2023. Rock
fragmentation indexes reflecting rock mass quality based on real-time data of
TBM tunnelling. Scientific Reports, 13: 10420.
2. Wu, L. J., Li, X., Yuan, J.
D., Wang S. J. 2023. Real-time prediction of tunnel face conditions using
XGBRF algorithm. Frontiers of Structural and Civil Engineering.
3. 李旭,武雷杰,李锦辉等. 一种基于TBM实时破岩数据的软弱破碎围岩感知方法. 发明专利,ZL202210821618.9
2017级
导师
王盟
1. Wang M., Li
X.*, Liu, Z., Liu, J., & Chang, D. 2020. Application of PIV Technique in
Model Test of Frost Heave of Unsaturated Soil. Journal of Cold Regions
Engineering, 34(3), 04020014.
2. Wang M., Li X , Chen L , et al. 2020. A
modified soil water content measurement technique using actively heated fiber
optic sensor. Journal of Rock Mechanics and Geotechnical Engineering, 12(3):
608-619.
3. Wang M., Li
X.*, Xu X. 2021. An implicit Heat-Pulse-Probe method for measuring the soil
ice content. Applied Thermal Engineering, 2021, 117186.
4. Wang M., Li X.*, Zhang
Y.Z., Du Y.L., 2023. Challenges in DIC measurement of segregation frost heave
and its solutions by adaptive updating algorithm. Cold Regions Science and
Technology, 210(2):103821
2016级
导师
张宁
1. Zhang N., Li
X.*, Lin X., 2020. A frictional spring and cohesive contact model for accurate
simulation of contact forces in numerical manifold method. International
Journal for Numerical Methods in Engineering, 121(11), 2369-2397.
2. Zhang N, Li X.*,
Jiang QH, Lin XC. Rotation errors in numerical manifold method and a
correction based on large deformation theory. Frontiers of Structural and
Civil Engineering, 2019.
3. Zhang N, Li
X.*, Wang D. Smoothed Classic Yield Function for C2 Continuities in Tensile
Cutoff, Compressive Cap, and Deviatoric Sections. International Journal of
Geomechanics,2021, 21(3): 04021005.
4. Chen L., Zhang N., Li X.*,
Zhang L.,2021. Comparison between baseline technique design and partial
factor design in slope engineering. Bulletin of Engineering Geology and the
Environment, 1-14.
5. 张宁, 李旭(*)等. 关于土坡稳定性分析中的分项系数取值的讨论. 岩土工程学报, 2016(EI)
6. 储昭飞, 李旭(*), 张宁. 土坡稳定性的分位概率法和分项系数法对比. 岩土工程学报, 2017 (EI)
2013级
副导师
刘振亚
1. Liu ZY, Liu JK, LI Xu(*) et al. Experimental
study on the volume and strength change of an unsaturated silty clay upon
freezing. Cold Regions Science and Technology, 2019, 157: 1-12. (SCI)
2. 刘振亚, 刘建坤, 李旭(*)等. PIV技术在非饱和冻土冻胀模型试验中的实现与灰度相关性分析[J]. 岩土工程学报, 2018. (EI)
3. 刘振亚, 刘建坤, 李旭(*)等. 非饱和粉质黏土冻结温度和冻结变形特性试验研究[J]. 岩土工程学报, 2017. (EI) (EI, 被引9次)
4. 刘振亚, 刘建坤, 李旭(*)等. 毛细黏聚与冰胶结作用对非饱和粉质黏土冻结强度及变形特性的影响。2018, 岩石力学与工程学报.(EI, 被引10次)
已毕业学生简介
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论文/期刊
新作
51 Wang M., Li X.*, Zhang Y.Z., Du Y.L., 2023. Challenges in DIC measurement of segregation frost heave and its solutions by adaptive updating algorithm. Cold Regions Science and Technology, 210(2):103821 50 Li J.B., Chen Z.Y.*, Li X., Jing L.J., et al, 2022. Feedback on a shared big dataset for intelligent TBM. Part I: Feature extraction and machine learning methods. Underground Space. https://doi.org/10.1016/j.undsp.2023.01.001 49 Li J.B., Chen Z.Y*., Li X., et al., 2022. Feedback on a shared big dataset for intelligent TBM. Part II: Application and forward look. Underground Space. https://doi.org/10.1016/j.undsp.2023.01.002 48 Zheng S.F., Liu Y., Zhang N., Li X., et al. 2022. Experimental studies on shape and size effects on particle breakage of railway ballast[J]. Transportation Geotechnics, 37: 100883. 47 Li X., Zheng S.F., Wang M., Liu A.Q. 2023. The prediction of the soil freezing characteristic curve using the soil water characteristic curve. Cold Regions Science and Technology, 212: 103880. 46 Li X., Li H.B., Du S.Z., et al., 2022. Cross-project utilization of Tunnel Boring Machines (TBM) construction data: A case study using big data from Yin-Song Diversion Project in China. Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards. https://doi.org/10.1080/17499518.2023.2184834 45 Zhang N., Zheng H., Li X., Wu, W.N. 2023. On hp refinements of independent cover numerical manifold method—some strategies and observations. Science China Technological Sciences 66(5) 44 Li X., Wu L. J., Wang Y. J., Li, J. H. 2023. Rock fragmentation indexes reflecting rock mass quality based on real-time data of TBM tunnelling. Scientific Reports, 13: 10420. 43 Li X., Yao M., Yuan J.D., Wang Y.J*., Li P.Y., 2022. Deep learning characterization of rock conditions based on tunnel boring machine. Underground Space,12, 89–101.https://doi.org/10.1016/j.undsp.2022.10.010 42 姚敏,李旭(*),原继东,王玉杰,李鹏宇. 2022.基于TBM破岩数据的岩体条件深度学习表征方法. 地球科学. 2023, 48(05):1908-1922. 41 Zhang Z, Li X, Wu Y.K* , Li X.K. Stable expression and control parameters in the numerical simulation of unsaturated flow. Front. Struct. Civ. Eng. 2022, 16(12): 1501–1514 40 Li X.K., Li X., Wu Y., Gao L. 2023. A novel unsaturated drainage layer in capillary barrier cover for slope protection. Bulletin of Engineering Geology and the Environment, 82(4):108 39 Li X., Li X. K., 2023. A soil freezing-thawing model based on thermodynamics. Cold Regions Science and Technology, 211, 103867. 38 Li X. K., Li X.*, Liu S., et al. 2023. Thermal-seepage coupled numerical simulation methodology for the artificial ground freezing process. Computers and Geotechnics, 156, 105246. 37 Wang H., Wu Y.*, Wang M., Li X. 2022. Influence of fines content and degree of saturation on the freezing deformation characteristics of unsaturated soils. Cold Regions Science and Technology, 201: 103610. 36 Li X. K., Li X.*, et al. 2022. The design criterion for capillary barrier cover in multi-climate regions. Waste Management, 149, 33-41. 35 Li X., Li X. K., Wu Y. K., et al. 2022. Selection criteria of mesh size and time step in FEM analysis of highly nonlinear unsaturated seepage process. Computers and Geotechnics, 146, 104712. 34 赵煜鑫, 李旭(*), 林森等. 广吸力范围内一种改进的非饱和土抗剪强度模型. 岩土力学,2023,44(04):990-1000.DOI:10.16285/j.rsm.2022.0975. 33 赵煜鑫, 李旭, 赵红芬等. 宽饱和度范围非饱和土抗剪强度指标的演化模型. 岩土力学,1-12.https://doi.org/10.16285/j.rsm.2023.0392. 32 赵煜鑫, 张禄乾,李旭(*)等. 宽饱和度范围非饱和粗细混合土的强度演化规律:试验现象. 岩土工程学报,1-11.. 31 赵煜鑫, 刘艳, 李旭(*)等. 非饱和黏性土抗剪强度模型对比分析及参数确定方法. 岩土工程学报, ,2022,44(S1):126-131. 30 于策, 李旭, 吴永康*, 魏少伟, 蔡德钩. 毛细导水布料排水性能及孔隙结构试验研究. 工程地质学报, 2022,30(5): 1494-1503. 29 李晓康, 李旭(*), 王菲,等. 毛细阻滞覆盖层储水能力和击穿时间试验研究. 岩石力学与工程学报, 2022(007):041. 28 刘丽,吴羊,李旭(*),赵煜鑫. 压实度对宽级配土水力特性的影响研究.岩土力学,2021,42(09):2545-2555.(EI) 27 李旭,刘阿强等. 全吸力范围内土水特征曲线的快速测定方法.岩土力学, 2022(EI) 26 刘阿强,李旭(*)等. 全吸力范围内渗透系数快速测定方法研究.岩土力学, 2022(EI) 25 李晓康,李旭(*)等. 毛细阻滞覆盖层储水能力和击穿时间试验研究. 岩石力学与工程学报, 2022(EI) 24 Wang M., Li X.*, Xu X.T., 2021. An implicit Heat-Pulse-Probe method for measuring the soil ice content. Applied Thermal Engineering, 2021,117186. 23 Li X., Zhang Z., Zhang L., Zhang L., Wu L., 2021. Combining two methods for the measurement of hydraulic conductivity over a wide suction range. Computers and Geotechnics, 135, 104178. 22 Zhang J., Hu J., Li X., Li J. Bayesian network based machine learning for design of pile foundations. Automation in Construction,2020, 118:103295. 21 Wang L., Liu J., Yu X., Li X., Puppala A., Wang Q. Experimental study on the correlation between the partial and total salt content in saline gravel using ion chromatography. Transportation Geotechnics, 2021, 26, 100424. 20 Chen L., Zhang N., Li, X.(*) , Zhang L . Comparison between baseline technique design and partial factor design in slope engineering. Bulletin of Engineering Geology and the Environment,2021, 1-14. 19 Zhang N., Li, X.(*), Wang D . Smoothed Classic Yield Function for C2 Continuities in Tensile Cutoff, Compressive Cap, and Deviatoric Sections. International Journal of Geomechanics,2021, 21(3): 04021005. 18 Chen Z. , Zhang Y., Li J., Li X., Jing L., 2020. Diagnosing tunnel collapse sections based on TBM tunneling big data and deep learning: A case study on the Yinsong Project, China. Tunnelling and Underground Space Technology,2020,108: 103700. 17 Wang M., Li X., Chen L., Hou S., Wu G., Deng Z., 2020. A modified soil water content measurement technique using actively heated fiber optic sensor. Journal of Rock Mechanics and Geotechnical Engineering, 12(3): 608-619. 16 Li J., Li P., Guo, D., Li, X*., Chen, Z. 2020. Advanced prediction of tunnel boring machine performance based on big data. Geoscience Frontiers. 15 Zhang N., Li X.*, Lin X. 2020. A frictional spring and cohesive contact model for accurate simulation of contact forces in numerical manifold method. International Journal for Numerical Methods in Engineering, 121(11), 2369-2397. 14 Wang M., Li X.*, Liu Z., Liu J., Chang, D. 2020. Application of PIV Technique in Model Test of Frost Heave of Unsaturated Soil. Journal of Cold Regions Engineering, 34(3), 04020014. 13 Ding G.Y.; Xu J.; Wei Y.; Chen R.*; Li, X*. 2019. Engineered reclamation fill material created from excavated soft material and granulated blast furnace slag. Resources, Conservation and Recycling, 150, 104428. (10.1016/j.resconrec.2019.104428). 12 Zhang N, LI X.*, et al. 2019. Rotation errors in 1 numerical manifold method and a correction based on large deformation theory. Frontiers of Structural and Civil Engineering, 2019. 11 Liu Z.Y, Liu J.K, LI X.*, et al. 2019. Experimental study on the volume and strength change of an unsaturated silty clay upon freezing[J]. Cold Regions Science and Technology, 157: 1-12. 10 Lin X.C., Li X.*, et al. A compact 3D block cutting and contact searching algorithm. Science China Technological Sciences, 2018. 9 Chen L.H., Li X.*, et al. 2018. Accurate estimation of soil shear strength parameters. Journal of Central South University,. 7 Fang J.H., Li X.*, et al. The crystallization and salt expansion characteristics of a silty clay. Cold Regions Science and Technology,. 6 史新, 庞康, 李旭(*)等. 宽级配砾质土防渗性能研究. 岩土工程学报. 2018 5 刘振亚, 刘建坤, 李旭(*)等. PIV技术在非饱和冻土冻胀模型试验中的实现与灰度相关性分析[J]. 岩土工程学报, 2018. 4 刘振亚, 刘建坤, 李旭(*)等. 毛细黏聚与冰胶结作用对非饱和粉质黏土冻结强度及变形特性的影响。岩石力学与工程学报,2018. 3 刘振亚, 刘建坤, 李旭(*)等. 非饱和粉质黏土冻结温度和冻结变形特性试验研究.岩土工程学报, 2017, 39(8), 1381-1387. 2 储昭飞, 刘保国, 李旭(*)等. 土坡稳定性的分位概率法和分项系数法对比. 岩土工程学报, 2017, 39(1), 106-115. 1 张宁, 李旭(*)等. 关于土坡稳定性分析中的分项系数取值的讨论.岩土工程学报, 2016, 38(9), 1695-1704.
代表作
1. Li X, Zhang L. Characterization of dual-structure pore-size distribution of soil. Canadian geotechnical journal, 2009, 46(2): 129-141.(Q1,SCI他引103次) 2. Zhang L , Li X. Microporosity structure of coarse granular soils. Journal of Geotechnical and Geoenvironmental Engineering, 2010, 136(10): 1425-1436.(Q1,SCI他引70次) 3. Li X, Zhang LM, Li JH. Predicting bimodal soil–water characteristic curves and permeability functions using physically based parameters. Computers and Geotechnics, 2014, 57: 85-96. (Q1,SCI他引51次) 4. Liu ZY, Liu JK, Li X(*),Fang JH. Experimental study on the volume and strength change of an unsaturated silty clay upon freezing[J]. Cold Regions Science and Technology, 2019, 157: 1-12.(SCI,Q1,引用次数:30,入选2018年以来该期刊引用量最多文章列表) 5. 白青波, 李旭(*),田亚护. 冻土水热耦合方程及数值模拟研究[J]. 岩土工程学报, 2015, 37(s2):131-136. (EI,引用次数:128) 6. Li X., Zhang L, Fredlund D. Wetting front advancing column test for measuring unsaturated hydraulic conductivity. Canadian Geotechnical Journal, 2009, 46(12): 1431-1445. (Q1,SCI他引58次) 7. Li, X., Zhang, Z., Zhang, L., Zhang, L., & Wu, L. (2021). Combining two methods for the measurement of hydraulic conductivity over a wide suction range. Computers and Geotechnics, 135, 104178.(Q1,最新成果) 8. Li, X., Li, X.K., Wu, Y., Wu, L., & Yue, Z. (2022). Selection criteria of mesh size and time step in FEM analysis of highly nonlinear unsaturated seepage process. Computers and Geotechnics, 146, 104712.(Q1,最新成果) 9. Wu LZ, Huang J, Fan W, Li X. Hydro-mechanical coupling in unsaturated soils covering a non-deformable structure. Computers and Geotechnics, 2020, 117:103287.(Q1,ESI高被引论文) 10. Li JH, Li PX, Guo D , Li X(*), Chen ZY. Advanced prediction of tunnel boring machine performance based on big data. Geoscience Frontiers, 2020, 12(1): 331-338.(Q1,近一年半持续为高被引ESI论文) 11. Lin XC, Li X(*), Wang XG, Wang YJ. A compact 3D block cutting and contact searching algorithm. SCIENCE CHINA Technological Sciences, 2019, 62(8): 1438-1454. (获中国大坝工程学会第十届“汪闻韶”院士青年优秀论文奖) 12. Zhang GX, Li X(*), Li HF. Simulation of hydraulic fracture utilizing numerical manifold method. SCIENCE CHINA Technological Sciences , 2015, 58: 1542-1557. (他引30次) 13. Zhang N, Li X(*), Lin X . A frictional spring and cohesive contact model for accurate simulation of contact forces in numerical manifold method. International Journal for Numerical Methods in Engineering, 2020, 121(11): 2369-2397. |
专著/译著
1. Xu Li, Hongfen Zhao, Limin Zhang. Fundamental Behavior of Unsaturated Widely-Graded Soil. Springer Singapore. 2023 2. 李旭等,土力学实验教程,北京交通大学出版社,2023 3. Zhang L., Li J., Li X., Zhang J., Zhu H., 2018. Rainfall-induced soil slope failure: stability analysis and probabilistic assessment. CRC Press. 4. Wu L., Huang R., Li X., 2020. Hydro-mechanical Analysis of Rainfall-Induced Landslides. Springer. 5. 岩土工程可靠度理论. 张璐璐主编. 同济大学出版社. (参编第六章响应面法)
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专利
1. 发明专利:一种隧道掘进响应参数的预测方法[P]. ZL 2022 1 0705545.7(排序1) 2. 发明专利:一种基于掘进载荷预测的TBM控制参数决策方法[P]. ZL 2022 1 0675433.1(排序1) 3. 发明专利:一种基于机器学习的TBM新建工程数据增强方法[P]. ZL 2022 1 0963204.X(排序1) 4. 发明专利:一种基于TBM实时破岩数据的软弱破碎围岩感知方法[P]. ZL202210821618.9(排序1) 5. 发明专利:一种冻土含冰量测量方法及装置: CN112268926A,2021-01-26(排序1) 6. 发明专利:一种富水地层路基防冻胀结构[P].ZL202011210127.8(排序1) 7. 发明专利:温控体变仪: CN201310647856.3[P].2014-04-09.(排序1) 8. 发明专利:一种全自动数字大型冻土直剪仪: CN201110221970.0[P].2012-01-11.(排序3) 9. 发明专利:一种冻土动载荷直剪仪[P]. CN103175742A,2013-06-26. (排序5) 10. 实用新型:一种基于FBG的冻土含冰量分布式原位测量装置: CN209542497U,2019-10-25(排序2)
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软件著作权
获奖与荣誉
① 2023,获北京交通大学土建学院学生最喜爱的老师荣誉 ② 2022,获第十五届茅以升土力学及岩土工程青年奖 ③ 2021,入选国家“万人计划”青年拔尖人才 ④ 2019,获教育部自然科学奖一等奖(排名2/7) ⑤ 2020,获广东省自然科学奖一等奖(排名3/5) ⑥ 2020,获中国大坝工程学会“汪文韶“院士优秀青年论文奖 ⑦ 2019,获中国力学学会岩土力学专业委员会,首届“黄文熙-陈宗基”岩土力学青年奖
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社会兼职
国际土力学及岩土工程学会(ISSMGE)堤防专业委员会委员、冻土力学专业委员会、大数据和人工智能专业委员会、非饱和土力学专业委员会通讯委员; 中国地理学会冻土及寒区工程专业委员会副主任委员; 中国岩石力学与工程学会极地岩土力学与工程专业委员会常务委员,AI技术实用化专委会常务委员,岩体物理数学模拟专业委员会委员,非连续变形分析专业委员会委员,多场耦合数值模拟专委会委员; 中国土木工程学会工程风险与保险研究分会理事; 中国土木工程学会土力学与岩土工程分会青年工作委员会委员、交通岩土工程专委会委员、非饱和土与特殊土专业委员会委员; 中国大坝工程学会数值模拟专业委员会委员; 中国水利学会岩土力学专委会委员。
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