个人简介
1996.09-2006.01 上海交通大学土木工程系就读(2006.3获博士学位)
2006.01-2011.12 上海交通大学船舶海洋与建筑工程学院 讲师
其中2010.10-2011.10 美国University of Arizona 访问学者
2011.12-2017.12 上海交通大学船舶海洋与建筑工程学院 副教授(2014.6起为博士生导师)
其中2016.9-2017.8 美国Clemson University 访问学者
2017.12-至今 上海交通大学船舶海洋与建筑工程学院 教授/博士生导师
科研项目
2017.01-2020.12 国家自然科学基金,波浪诱发缓坡滑动作用下海洋桩基的变形机理研究(51679134),项目负责人;
2014.01-2017.12 国家自然科学基金,波浪荷载与海底土层渗流耦合作用下桩基承载性能研究(41372282),项目负责人;
2014.01-2018.12 国家自然科学基金重点项目,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),第二负责人;
2011.01-2013.12 国家自然科学基金,土体深开挖卸荷作用下的桩基受力变形与承载机理研究(41002095),项目负责人;
2013.09-2015.08,上海市浦江人才计划,波浪与海床渗流耦合作用下的桩基承载机理与性能研究(13PJD017),项目负责人;
2013.09-2015.08,上海市科委科技攻关项目,隧道敏感节点安全评估分析方法和应用研究(13231200402),项目负责人;
2011.12-2013.12,上海市科委科技攻关项目,基坑工程风险预警方法与控制系统研究(11231201602),项目负责人;
2010.07-2012.06,上海市科委科技攻关项目,长距离逆作法出土工艺原理及协同控制系统(10231200802),项目负责人;
教学工作
1.课程
基坑工程(本科生)
土力学与地基基础(本科生)
桩基工程(硕士研究生)
土木工程施工专题(专业学位硕士研究生)
2. 教材
王建华,张璐璐,陈锦剑,土力学与地基基础,中国建筑工业出版社,2011.12
软件版权登记及专利
1. 陈锦剑,丁勇春,王建华,夏小和,土体中侧向土压力传感器埋设方法及装置,专利号:ZL 200810041666.6.
2. 陈锦剑,丁勇春,王建华,地下连续墙成槽施工中护壁泥浆压力的测试方法及其装置,专利号:ZL 200810040916.4.
3. 陈锦剑,王建华,徐云峰,地下管道与土体之间摩擦系数室内测试装置,专利号:ZL 200810037406..
4. 陈锦剑,陈楠,夏小和,王建华,桩身摩阻力计,ZL 201210138209.5.
5. 陈锦剑,程仕远,王建华,基于测斜数据的围护结构的内力与风险评估方法及系统,ZL 201310222051.4.
6. 陈锦剑,冉岸绿,王建华,武朝军,基于三轴固结试验确定土体渗透系数与孔隙比关系的方法,ZL 201410563824.X.
7. 丁勇春,陈锦剑,王建华,夏小和,地下连续墙墙底清渣注浆方法及装置,专利号:ZL 200810041673.6.
8. 夏小和,陈锦剑,韩长玉,王建华,地下连续墙纯粘性槽壁局部稳定性及泥浆容重确定方法,专利号:ZL 201010564692.4.
9. 王建华,陈锦剑,韩长玉,夏小和,地下连续墙槽壁局部稳定性及泥浆容重确定方法,专利号:ZL 201010564666.1.
10. 陈楠,陈锦剑,叶冠林,王建华,夏小和,综合摩阻力计,ZL 201210138208.0.
11. 程仕远,陈锦剑,王建华,雷晗,圆形沉井顶管顶力的设置方法,ZL 201210331256.1.
12. 邬俊杰,陈锦剑,王建华,测量预制桩内力及变形的方法,ZL 201210514738.0.
13. 孟振,陈锦剑,王建华,一种用于连接室内竖向静载荷模型桩与压力传感器的装置,ZL 2015105327620.
14. 程仕远,雷晗,陈锦剑,王建华,矩形沉井偏心顶进的顶管顶力的设置方法,ZL 201210331250.4.
15. 韩长玉,王建华,陈锦剑,夏小和,地下连续墙槽壁整体稳定性及泥浆容重确定方法,专利号:ZL 201010564642.6.
16. 韩长玉,王建华,陈锦剑,夏小和,底面为曲面基础优化施工方法,专利号:ZL 201110099304.4.
17. 雷晗,王建华,陈锦剑,钢筋混凝土顶管施工中优化管道设计的方法,ZL 201110227631.3.
18. 李明广,徐云峰,陈锦剑,王建华,徐安军,折叠式土方输运机实时监控系统及方法,ZL 201210206452.6.
19. 韩长玉,王建华,夏小和,陈锦剑,基于稳定阳角处槽壁的地下连续墙成槽优化施工方法,专利号:ZL 201110054093.2.
20. 叶冠林; 宋云奇; 韩磊; 陈锦剑,一种外侧壁土压力盒液压式埋设装置及埋设方法,ZL 201510330076.5.
21. 叶冠林; 宋云奇; 韩磊; 陈锦剑,一种外侧壁土压力盒旋进式埋设装置及埋设方法,ZL 201510330055.3.
22. 李清华,成果,孟振,陈锦剑,顶管穿越海底浅覆土抗浮施工方法,ZL 2013105797152.
23. 朱雁飞,潘伟强,王建华,陈锦剑,侯永茂,沈尉,杜毅,基于数据融合分析的深基坑风险评估方法,ZL 201210356395.X.
24. 杜毅,王祺,高英林,诸颖,陈锦剑,诸峰,在运行浅埋地铁长距离穿越场地中的深大基坑开挖方法,ZL 201310291955.2.
荣誉和奖励
1.饱和土与桩基动力相互作用分析的基本理论与算法,2014年度高等学校科学研究优秀成果奖自然科学奖一等奖,排名第4,2014.12。
2.复杂环境中长距离顶管施工力学分析及控制技术,2012年度高等学校科学研究优秀成果奖科学技术进步奖二等奖,排名第3,2012.12。
3.复杂应力条件下深厚软土地区深大基坑全过程控制技术及应用,2014年度浙江省科学技术进步奖一等奖,排名第4,2014.12。
4.复杂软土地层中超深地下连续墙、钻孔灌注桩施工关键技术,2014年度上海市科技进步奖一等奖,排名第6,2014.12。
5.远程遥控气压沉箱设计施工与设备的关键技术,2008年上海市科技进步一等奖,排名第15,2008.12。
6.大直径钢顶管穿越复杂海床建设的成套技术开发及工程应用,2016年度福建省科技进步奖二等奖,排名第5,2017.9
7.复杂地层中长距离顶管施工关键技术及应用,2012年度上海市科技进步二等奖,排名第8,2012.12。
8.低碳多功能超深障碍桩高效清除成套设备及工艺,2016年度上海市科技进步奖三等奖,排名第3,2016.12
9.城市地下交通立体化建设新技术, 2011年度上海市科技进步三等奖,排名第7,2011.12。
10.新型管材顶管特种施工技术,2009年度上海市科技进步三等奖,排名第7,2009.12。
11.基坑支护结构与主体结构相结合关键技术,2012年华夏建设科学技术奖一等奖,排名第6,2012.11
12.深层地下结构开发关键技术研究,2010年华夏建设科学技术奖二等奖,排名第5,2010.11
近期论文
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1.Chen J.J., Li M.G., Wang J.H., Active earth pressure against rigid retaining walls subjected to confined cohesionless soil. International Journal of Geomechanics. 2017.6, 17(6): 06016041.
2.Chen JJ, Zeng FY, Wang JH, Zhang L, Analysis of laterally loaded rock-socketed shafts considering the nonlinear behavior of both the soil/rock mass and the shaft, Journal of Geotechnical and Geoenvironmental Engineering. 2017, 143(3): 06016025
3.Chen J.J., Zhang W., Wang J.H., Data fusion analysis method for assessment on safety monitoring results of deep excavations. Journal of Aerospace Engineering. 2017.3, 30(2): B4015005.
4.Chen J.J., Hou Y.M., Wang J.H., Qiao P.Z.. Shear bearing of the cross-plate joints between diaphragm wall panels - II: numerical analysis and prediction method. Magazine of Concrete Research. 2016. 68(20), 1025–1039
5.Chen J.J., Wang J.H., Qiao P.Z., Hou Y.M., Gu Q.Y.. Shear bearing of the cross-plate joints between diaphragm wall panels - I: model tests and shearing behavior. Magazine of Concrete Research. 2016, 68(17), 902–915.
6.Chen J.J., Zhu Y.F., Li M.G., Wen S.L.. Novel excavation and construction method of an underground highway tunnel above operating metro tunnels. Journal of Aerospace Engineering, ASCE. 2015 28(6), A4014003.
7.Chen J.J., Lei H., and Wang J.H.. Numerical analysis of the installation effect of diaphragm walls in saturated soft clay. Acta Geotechnica. 2014, 9(6): 981–991.
8.Chen J.J., Zhang L., Zhang J.F., Zhu Y.F., and Wang J.H.. Field tests, modification, and application of deep soil mixing method in soft clay, Journal of geotechnical and geoenvironmental engineering, ASCE. 2013, 139(1): 24-34.
9.Chen J.J., Zhang L., The effect of spatial correlation of cone tip resistance on the bearing capacity of piles, Journal of geotechnical and geoenvironmental engineering, ASCE. 2013, 139(3): 494-500.
10.Chen J.J., Wang J.H., Ke X., Jeng D.S. Behavior of Large-Diameter Rock-Socketed Piles Under Lateral Loads, International Journal of Offshore and Polar Engineering. 2011, 21(4): 323-329.
11.Meng Z., Chen J.J.(通讯), Wang J.H.. Numerical Analysis of Bearing Capacity of Drilled Displacement Piles with a Screw-Shaped Shaft in Sand. Marine Georesources & Geotechnology. 2017.5, 35(5): 661-669.
12.Li M.G., Chen J.J.(通讯), Wang J.H., Arching effect on lateral pressure of confined granular material: numerical and theoretical analysis. Granular Matter. 2017.5, 19(2):20
13.Zhang H.B., Chen J.J.(通讯), Fan F., Wang J.H., Deformation Monitoring and Performance Analysis on the Shield Tunnel Influenced by Adjacent Deep Excavations. Journal of Aerospace Engineering. 2017.3, 30(2): B4015002
14.Wang W., Chen J.J. (通讯), Wang J.H.. Estimation method for ground settlement of granular soils caused by dynamic compaction. Soil Dynamics and Earthquake Engineering. Volume 92, January 2017, Pages 266–278.
15.Tan Y.P., Chen J.J. (通讯), Wang J.H.. Practical investigation into two types of analysis in predicting ground displacements due to dewatering and excavation. Journal of Aerospace Engineering, ASCE. 2015, 28(6), A4014001.
16.Li M.G., Chen J.J. (通讯), Xu A.J., Xia X.H., and Wang J.H.. Case Study of an Innovative Top-Down Construction Method with Channel-Type Excavation. Journal of Construction Engineering and Management, ASCE. 2014, 140(5), 05014003.
17.Zhang J.F., Chen J.J. (通讯), Wang J.H., Zhu Y.F.. Prediction of tunnel displacement induced by adjacent excavation in soft soil, Tunnelling and Underground Space Technology, 2013, Vol.36: 24-33.
18.Li M.G.; Wang J.H.; Chen J.J.(通讯); Zhang Z.J.. Responses of a newly-built metro line connected to deep excavations in soft clay. Journal of Performance of Constructed Facilities. 2017, 31(6): 04017096
19.Zhu Y.F., Huang Y.Z., Tan Y.P., Chen J.J. (通讯). Stratified settlement characteristics of the soil strata in Shanghai due to dewatering. Journal of Aerospace Engineering, ASCE. 2015, 28(6), A4014005.
20.Meng Z., Chen J.J., Zhang L., Wang J.H., Yao J.M.. Field Tests to Investigate the Installation Effects of Drilled Displacement Piles with Screw-Shaped Shaft in Clay. Journal of geotechnical and geoenvironmental engineering, ASCE. 2015.12, 141(12). 06015010 A.
21.Wang J.H., Chen J.J., Qiao P.Z.. Special Issue on Urban Underground Space Development Technologies. Journal of Aerospace Engineering, ASCE. 2015, 28(6), A2015001.
22.Xi Y., Chen J.J., Xu Y.F., Chu F.F., Liu C.X.. Yield stress of fractal aggregates. Fractals. 2015, 23(3), 1550028
23.Zhang H.B., Chen J.J., Zhao X.S., Wang J.H., Hu H. (2015). Displacement performance and simple prediction of deep excavations supported by contiguous bored pile wall in soft clay. Journal of Aerospace Engineering, ASCE. 2015.11, 28(6), A4014008.
24.Han, CY, Chen J.J., Xia, XH, Wang, JH. Stability Analysis of loaded Slopes based on Limit Analysis. Journal of Central South University, 2014, 21(3): 1142−1147.
25.Zhen L, Chen J.J., Qiao P., and Wang J.H.. Analysis and remedial treatment of a steel pipe-jacking accident in a complex underground environment. Engineering Structures. 2014, 59: 210–219.
26.Han C.Y., Chen J.J., Wang J.H., Xia, X.H., 2D and 3D stability analysis of slurry trench in frictional/cohesive soil. Journal of Zhejiang University - Science A, 2013, 14(2): 94-100.
27.Zhang L., Chen J.J.. Effect of spatial correlation of standard penetration test (SPT) data on bearing capacity of driven piles in sand, Canadian Geotechnical Journal. 2012, 49(4), 394-402.