| 刘春 | ||||
| 性 别 | 男 | 职 称 | 副教授 |
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| 研究方向 | 地质工程 | 电 话 | ||
| 电子邮件 | chunliu@nju.edu.cn | 传 真 | ||
| 办公地点 | 朱共山楼258 | 邮政编码 | 210023 | |
| 通讯地址 | 南京市仙林大道163号地球科学与工程学院 | |||
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个人简历 南京大学地球科学与工程学院副教授,硕士生导师。主要研究领域为岩土体多场多尺度定量分析和数值模拟,包括岩土体微观结构数字图像定量分析,岩土体离散元法、多场耦合理论、系统研发和应用等。2012年博士毕业于南京大学,获“2012年李四光优秀博士研究生奖”和“2013年江苏省优秀博士论文”。后在斯坦福大学开展博士后研究。2014年始任南京大学副教授。2015年获岩石力学与工程学会“青年人才托举工程”支持(二等)。主持和参与了六项国家自然科学基金项目研究,发表了三十余篇研究论文,包括20篇SCI论文。其中,以第一作者发表了10篇SCI论文,包括3篇Journal of Geophysical Research- Solid Earth, 2篇Computers & Geosciences, 2篇Journal of Structural Geology,以及Build and Environment, Engineering Geology和Applied Clay Science等。已申请和获得国家发明专利6项,获得5项软件著作权。 教学情况 本科生课程: 《水文地质工程地质概论》工程地质部分 《现代地质工程技术与实践》(高年级研讨课); 研究生课程:《工程地质专题》(合上); 研究方向 岩土体在宏观上表现为相对连续,而微观上是由一系列颗粒和孔隙组成,通过微观结构定量分析和微观力学的方法可以有效地认识这种不连续性并解决相关问题。 1. 离散元工程数值法(DEM)理论、系统研发和应用。在研课题包括: a)LBM-DEM多场多相耦合理论和应用; b)地面沉降三维建模和模拟; c)岩石水力压裂数值模拟; d)多场多相耦合滑坡演化过程模拟; 2. 岩土体微观结构定量分析及微宏观联系。在研课题包括: a)以上课题中的微观结构分析; b)应力作用下的微观结构固定,实验方法和设备研发; c)颗粒和孔隙结构二维向三维转化理论,以及三维建模; 发表论文(*为通讯作者) 1. Liu, C.*, Shi B., Pollard D. D., and Gu K. 2015. Mechanism of formation of wiggly compaction bands in porous sandstone: 2. Numerical simulation using discrete element method, J. Geophys. Res. Solid Earth, 120, doi:10.1002/2015JB012374. (SCI) 2. Liu, C.*, Pollard D. D., Aydin A., and Deng S. 2015. Mechanism of formation of wiggly compaction bands in porous sandstone: 1. Observations and conceptual model, J. Geophys. Res. Solid Earth, 120, doi:10.1002/2015JB012372. (SCI) 3. Liu C.*, Pollard D.D., Shi B. 2013. Analytical solutions and numerical tests of elastic and failure behaviors of close-packed lattice for brittle rocks and crystals. Journal of Geophysical Research- Solid Earth, 118, 71–82. [doi: 10.1029/2012JB009615] (SCI) 4. Liu C., Shi B.*, Shao Y., Tang C., 2013. Experimental and Numerical Investigation of Urban Heat Island Effect on Slope Stability. Bulletin of Engineering Geology and the Environment, 72(3-4), 303-310. [doi: 10.1007/s10064-013-0476-5] (SCI, EI) 5. Liu C. *, Tang C., Shi B., Suo W., 2013. Automatic quantification of crack patterns by image processing. Computers and Geosciences, 57, 77-80. [doi: 10.1016/j.cageo.2013.04.008] (SCI, EI) 6. Liu C. *, Yin H., Zhu L., 2012. TrishearCreator: a tool for the kinematic simulation and strain analysis of trishear fault-propagation folding with growth strata. Computers & Geosciences, 49, 200-206 [doi:10.1016/j.cageo.2012.07.002] (SCI, EI) 7. Liu C. *, Shi B., Zhou J., Tang C., 2011. Quantification and characterization of microporosity by image processing, geometric measurement and statistical methods: application on SEM images of clay materials. Applied Clay Science, 54(1), 97-106 [doi: 10.1016/j.clay.2011.07.022] (SCI, EI) 8. Liu C. *, Shi B., Tang C., Gao L., 2011. A numerical and field Investigation of underground temperatures under urban heat island. Building and Environment 46(5), 1205-1210 [doi: 10.1016/j.buildenv.2010.12.015] (SCI, EI) 9. Liu C. *, Zhang Y., Wang, Y., 2009. Analysis of complete fold shape based on quadratic Bezier curves. Journal of Structural Geology 31(6), 575-581 [doi: 10.1016/j.jsg.2009.03.019] (SCI, EI) 10. Liu C. *, Zhang Y., Shi B., 2009. Geometric and kinematic modeling of detachment folds with growth strata based on Bezier curves. Journal of Structural Geology 31(3), 260-269 [doi: 10.1016/j.jsg.2008.11.019] (SCI, EI) 11. Gu, K., Jin, F., Al-Tabbaa, A., Shi, B., Liu, C., & Gao, L. (2015). Incorporation of reactive magnesia and quicklime in sustainable binders for soil stabilisation. Engineering Geology, 195, 53–62. (SCI, EI) 12. Deng, S., Cilona A., Morrow C., Mapeli C., Liu C., Lockner D., Prasad M., and Aydin A. (2015b), Cross-bedding related anisotropy and its interplay with various boundary conditions in the formation and orientation of joints in an aeolian sandstone, J. Struct. Geol., 77(8), 175–190. (SCI, EI) 13. Jiao K., Yao S., Liu C., Gao Y., Wu H., Li M., Tang Z., 2014. The characterization and quantitative analysis of nanopores in unconventional gas reservoirs utilizing FESEM–FIB and image processing: An example from the lower Silurian Longmaxi Shale, upper Yangtze region, China. International Journal of Coal Geology, 128-129, 1-11. [doi: 10.1016/j.coal.2014.03.004] (SCI, EI) 14. Tang C., Shi B., Cui Y., Liu C., Gu K., 2012. Desiccation cracking behaviour of polypropylene fiber reinforced clayey soil. Canadian Geotechnical Journal, 49(9), 1088-1101 [doi: 10.1139/t2012-067] (SCI) 15. Shi B., Tang C., Gao L., Liu C., Wang B., 2012. Observation and analysis of the urban heat island effect on soil in Nanjing, China. Environmental Earth Sciences. Environmental Earth Sciences, 67(1), 215-229 [doi:10.1007/s12665-011-1501-2] (SCI, EI) 16. Tang C., Shi B., Gao L., Daniels J.L., Jiang H.T., Liu C., 2011. Urbanization effect on soil temperature in Nanjing, China. Energy and Buildings, 43(11), 3090–3098 [doi: 10.1016/j.enbuild.2011.08.003] (SCI, EI) 17. Tang C., Cui Y., Shi B., Tang A., Liu C., 2011. Desiccation and cracking behaviour of clay layer from slurry state under wetting-drying cycles. Geoderma, 116(1), 111-118 [doi: 10.1016/j.geoderma.2011.07.018] (SCI, EI) 18. Tang C., Shi B., Liu C., Gao L., Inyang H., 2011. Experimental investigation on the desiccation cracking behavior of soil layer during drying. Journal of Materials in Civil Engineering 23(6), 873-878 [doi: 10.1061/(ASCE)MT.1943-5533.0000242] (SCI, EI) 19. Tang C., Shi B., Liu C., et al. 2011. Experimental characterization of shrinkage and desiccation cracking in thin clay layer. Applied Clay Science 52(1-2), 69-77 [doi: 10.1016/j.clay.2011.01.032] (SCI, EI) 20. Tang C., Shi B., Liu C., Wang B., 2008. Influencing factors of geometrical structure of surface shrinkage cracks in clayey soils. Engineering Geology 101(3-4), 204-217 [doi: 10.1016/j.enggeo.2008.05.005] (SCI, EI) 21. Shao Y., Gao L., Liu C., Lei Gao, 2012. Experimental Study on Temperature Effect on Engineering Properties of Clayey Soils. Advanced Materials Research 512, 1905-1918 [doi: 10.4028/www.scientific.net/AMR.512-515.1905] ( EI) 22. 刘春*,王宝军,施斌,唐朝生,2008.基于数字图像识别的岩土体裂隙形态参数分析方法. 岩土工程学报,30(9):1383-1388 (EI) 23. 刘春*, 施斌, 顾凯, & 孙义杰. (2014). 岩土体大型三维离散元模拟系统的研发与应用. 2014年全国工程地质学术大会论文集. 24. 吴静红,周春慧,姜洪涛,苏晶文,姜月华,刘春,施斌, 2014,.苏州第四纪沉积物物理性质与地面沉降生命过程分析.岩土工程学报,36(9):1745-1753.(EI) 25. 唐朝生,施斌,刘春,2012.膨胀土收缩开裂特性研究.工程地质学报,20(5):663-673 26. 施斌,唐朝生,高磊,姜洪涛,刘春,2012.城市和郊区浅部地温场差异.工程地质学报,20(1):58-65 [doi:10.3969/j.issn.1004-9665.2012.01.009] 27. 邵玉娴,施斌,刘春,顾凯,唐朝生,2011.黏性土水理性质温度效应研究. 岩土工程学报, 33(10), 1576-1582 (EI) 28. 唐朝生,施斌,高磊,刘春,赵理政,2011.城郊土体剖面含水量监测与对比研究.工程地质学报,19(5):656-663 [doi:10.3969/j.issn.1004-9665.2011.05.004] 29. 唐朝生,施斌,高磊,顾凯,刘春,2010.土体剖面温度物理模型试验研究.工程地质学报,18(6):913-919 [doi:10.3969/j.issn.1004-9665.2010.06.016] 30. 施斌,邵玉娴,刘春,王宝军,2009.城市"热岛"效应对土体工程性质的影响及其关键科学问题.工程地质学报,17(2):180-187 [doi: 10.3969/j.issn.1004-9665.2009.02.005] 31. 施斌,刘春,王宝军,赵理政,2008.城市热岛效应对土的工程性质影响及灾害效应分析.地球科学进展,23(11):1167-1173 32. 唐朝生,施斌,刘春,王宝军,2007.影响黏性土表面干缩裂缝结构形态的因素及定量分析.水利学报,38(10):1186-1193 (EI) 33. 唐朝生,施斌,刘春,王宝军,高玮,2007.黏性土在不同温度下干缩裂缝的发展规律及形态学定量分析.岩土工程学报,29(5):743-749 (EI) 34. Shi B.,Liu C., Tang C.S., Wang B.J., 2008. Urban heat island effect on engineering properties of soil and the related disaster effect. In proceeding of International symposium on drought and constructions, Paris, Sep.1-3. (conference) 35. Shi B., Zhang D., Zhu H.H., Liu C., 2011. Application of distributed optical fiber strain measurement into geotechnical engineering monitoring. 8th International Workshop on Structural Health Monitoring 2011, Stanford University. (conference) 36. Liu C., Wang B., Shi B., Tang C., 2010. Quantitative analysis of soil cracks using image processing. 11th International Association for Engineering Geology and the Environment Congress 2010, Beijing. (conference) |
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