刘琳,博士、教授、博士生导师,国家级青年人才计划入选者
重庆大学本科、东南大学硕博,荷兰代尔夫特理工大学访问博士生(2年),加州大学伯克利分校访问学者(1年),江苏省建筑科学研究院有限公司博士后(3年)。
服务于国家战略需求,主持国家优秀青年科学基金、国家基金委面上项目、青年基金项目、省自然科学基金等,发表论文60余篇,SCI收录论文被引>1000次,EI论文11篇,授权发明专利11件,获科技奖励 4项。
Email:liulin@hhu.edu.cn
研究方向
· 混凝土耐久性及提升技术
· 低碳混凝土基础理论及关键技术
· 混凝土多尺度模型与模拟
主讲课程
· 《解锁未来:土木与交通》、《结构检验》、《钢筋混凝土实验》(本科生课程)
· 《结构试验与量测技术》(研究生课程)
主持科研项目
1. 低温及超低温环境下碱激发混凝土冻融破坏机理研究(国家自然科学基金资助项目/面上项目)
2. 基于多尺度方法的溶蚀/冻融/干湿交互作用下结构混凝土损伤累积及定量表征(国家自然科学基金资助项目/面上项目)
3. 生态低碳高耐久碱激发混凝土科学设计方法与应用基础研究(国家自然科学基金资助项目/中英国际合作)之子课题。
4. 基于微观结构分析的不同饱水度水泥基复合材料的冻融损伤机理研究(国家自然科学基金资助项目/青年科学基金)。
5. 冻融循环作用下饱水度对水泥砂浆微观结构损伤及宏观力学性能影响的研究(江苏省自然科学基金资助项目/青年基金)。
6. 溶蚀/冻融交互作用下水工混凝土损伤多尺度研究(中国博士后科学基金特别资助)。
7. 软水腐蚀与冻融耦合作用下水泥基材料劣化的机理研究(中国博士后科学基金面上一等资助)。
8. 温度-湿度耦合机制下水泥基材料的冻融开裂模拟(高性能土木工程材料国家重点实验室开放基金)。
9. 关于水泥基复合材料冰冻损伤的基础研究(江苏省博士后科研资助计划)。
10. 冰冻条件下水泥基材料的微观结构劣化研究(江苏省土木工程材料重点实验室开放课题基金)。
发表文章
部分SCI/EI论文
1. Liu L.*, Qin G., Zhou Y., Chen H., Wang X. (2021) Freezing Behavior of Unsaturated Porous Materials. Construction and Building Materials, 274, 122112
2. Liu L.*, Tao G., Chen H., Zhu Z. (2020) Shape effect of cement particles on the ionic diffusivity of hardened cement paste—a three-dimensional numerical investigation. Construction and Building Materials, 250, 118736.
3. Liu L.*, Qin G., Qin S., Tao G. (2020) Simulation of the volumetric deformation and changes in the pore structure of unsaturated cement-based materials subjected to freezing/thawing. Construction and Building Materials, 230, 116964.
4. Liu L.*, Sun C., Geng G., Feng P., Li J., Dahn R. (2019) Influence of decalcification on structural and mechanical properties of synthetic calcium silicate hydrate (C-S-H). Cement and Concrete Research, 123, 105793.(IF(2020)=10.933,一区期刊)
5. Liu L.*, Qin S., Wang X. (2018) Poro-elastic-plastic model for cement-based materials subjected to freeze-thaw cycles. Construction and Building Materials, 184, 87-99.
6. Liu L.*, Wang X., Zhou J., Chu H., Shen D., Chen H., Qin S. (2018) Investigation of pore structure and mechanical property of cement paste subjected to the coupled action of freezing/thawing and calcium leaching. Cement and Concrete Research, 109, 133-146. (IF(2020)=10.933,一区期刊)
1. Liu L.*, Wang X.C., Chen H.S., Wan C.J., Zhang M.Z. (2017) Numerical modeling of drying shrinkage deformation of cement-based composites by coupling multiscale structure model with 3D lattice analyses. Computers and Structures, 178, 88-104.
2. Liu L.*, Wang X.C., Chen H.S., Wan C.J. (2016) Microstructure-based modeling of drying shrinkage and microcracking of cement paste at high relative humidity. Construction and Building Materials, 126, 410-425. (SCIE, IF3.169)
3. Liu L., Shen D.J.*, Chen H.S., Xu W.X. (2014) Aggregate shape effect on the diffusivity of mortar: A 3D numerical investigation by random packing models of ellipsoidal particles and of convex polyhedral particles. Computers and Structures, 144, 40-51.
4. Liu L*, Wu S.X., Chen H.S., Zhao H.T .(2014) Numerical investigation of the effects of freezing on micro-internal damage and macro-mechanical properties of cement pastes. Cold Regions Science and Technology,106~107, 141-152.
5. Liu L., Shen D.J.*, Chen H.S., Sun W., Qian Z.W., Zhao H.T., Jiang J.H. (2014) Analysis of damage development in cement paste due to ice nucleation at different temperatures. Cement and Concrete Composites, 531-9.(IF(2020)=7.586,一区期刊)
6. Liu L.*, Chen H.S., Sun W., Ye G. (2013) Microstructure-based modeling of the diffusivity of cement paste with micro-cracks. Construction and Building Materials, 38, 1107-1116. (SCIE, IF2.421)
7. Liu L.*, Sun W., Ye G., Chen H.S., Qian Z.W. (2012) Estimation of the ionic diffusivity of virtual cement paste by random walk algorithm. Construction and Building Materials, 28, 1, 405-413. (SCIE, IF2.421)
8. Liu L.*, Ye G., Schlangen E., Chen, H.S., Qian Z.W., Sun W., van Breugel K. (2011). Modeling of the internal damage of saturated cement paste due to ice crystallization pressure during freezing. Cement and Concrete Composites, 33, 5, 562-571.(IF(2020)=7.586,一区期刊)
9. 王学成, 刘琳* (2016). 基于碟片法的溶蚀作用下水泥净浆微观结构演变研究. 材料导报B研究篇,30 (12) (2016) 124-129. (in Chinese). (EI )
10. Zhu R., Liu L.*, Chen H. (2016). Investigation of the freezing/melting process of unsaturated cement paste by low temperature calorimetry. 5th International Conference on Durability of Concrete Structures, June 30- July 1, 2016, Shenzhen, China. (EI )
11. Liu L.*, Chen H.S. (2015). Modeling of the drying process in pores and the shrinkage of cement paste at high relative humidity. Concreep10: Mechanics and Physics of Creep, Shrinkage, and Durability of Concrete and Concrete Structures, ASCE, 280-286. (EI)
12. 刘琳*, 陈惠苏, 孙伟, 吴胜兴. (2013). 基于格构模型的水泥浆体离子稳态扩散模拟. 建筑材料学报,16(6) 1032-1038. Simulation of the steady state diffusion behavior through cement paste by 3D lattice transport model. Journal of Building Materials, 16 (6) (2013) 1032-1038. (in Chinese). (EI )
13. 刘琳*,孙伟,陈惠苏,叶光,钱智炜(2011). 饱和状态下水泥浆体的微观结构冰冻损伤模型. 东南大学学报(自然科学版), 41(5) 1059-1064. Microstructure-based modeling of frost damage of saturated cement paste. Journal of Southeast University (Natural Science Edition), 41(5) 1059-1064. (in Chinese) (EI )
14. 刘琳*,孙伟,叶光,陈惠苏,Klaas van Breugel (2010). 预测水化水泥浆体离子扩散性能的一种新方法,硅酸盐学报,38(11) 2159-2166. A new approach to estimate ionic diffusivity of hydrating cement paste. Journal of the Chinese Ceramic Society, 38(11) 2159-2166. (in Chinese) (EI )
研究生招生
博士生(结构工程):每年招收2名。
学术型硕士生(结构工程)、全日制工程硕士(土木水利):每年共计招收6-8名。
欢迎报考研究生 电子信箱: liulin@hhu.edu.cn