蒋志律

研究方向及兴趣

(1)混凝土内热湿耦合传输、碳化和氯离子侵蚀等的理论模型及多尺度数值模拟研究；

(2)水泥基材料传输性能的宏观及微观尺度试验研究；

(3)海水海砂混凝土、LC3水泥的水化及氯离子固化性能研究；

(4)熟练掌握Visual C++、MATLAB、COMSOL等软件模拟技术，熟练掌握BSE、XCT、FIB-SEM等图片处理、三维重构技术。

课题组氛围轻松，学术认真负责。欢迎感兴趣的同学投递简历到我的邮箱：zljiang@zjut.edu.cn

本科生课程：

《混凝土结构设计》

《Introduction to Civil Engineering》（留学生）

科研项目

(1)   国家自然科学基金面上项目，52178232，基于三维微细观结构表征的混凝土氯离子传输随机特性研究，2022/01-2025/12，56万元，主持；

(2)   国家自然科学基金青年科学基金项目，51808346，基于微细观尺度的干湿交替下混凝土氯离子传输机制研究，2019/01-2021/12，24万元，主持；

(3)   浙江省自然科学基金探索一般项目，LY23E080010，海洋环境下绿色低碳混凝土抗侵蚀机理多尺度研究，2023/01-2025/12,10万元，主持；

(4)   工程结构性能演化与控制教育部重点实验室开放课题，微细观尺度上混凝土多相随机分布的三维图像化表征，2023/01-2024/12，主持；

(5)   国家自然科学基金联合基金项目重点项目，滨海环境下高耐久性低胶凝自密实混凝土材料设计及应用基础研究，2021/01 - 2024/12，280万元，子课题负责人；

(6)   广东省重点领域研发计划，新型ICCP-SS碳纤维复材海水海砂钢筋混凝土建筑结构关键技术研究，2020/01-2024/12，1500万元，参与；

(7)   国家自然科学基金重大国际（地区）合作研究项目，基于时变可靠性分析的混凝土结构全寿命设计理论，2014年1月-2018年12月，参与；

(8)   国家重点基础研究发展计划（973计划），环境友好现代混凝土的基础研究，2009.01-2014.12，参与；

(9)   The U.S. Department of Energy, DE-FE0026514, Nanoparticle injection technology for remediating leaks of CO2 storage formation, 2015-2018, as an investigator.

期刊论文

(1)     ZL Jiang, XK Qiu, DM Fang, S Sheng, CQ Fu, YX Jing. Three-dimensional pore structure and oxygen diffusivity of alkali-activated materials based on multi-resolution simulated annealing reconstruction. Construction and Building Materials, 2026(515).

(2)     ZL Jiang, YJ Pan, JF Lu, YC Wang. Pore structure characterization of cement paste by different experimental methods and its influence on permeability evaluation. Cement and Concrete Research, 2022(159): 106892. Journal rank: 1/91 in Construction & Building Technology

(3)     ZL Jiang, YP Xi, XL Gu, QH Huang, WP Zhang. Modelling of water vapour sorption hysteresis of cement-based materials based on pore size distribution, Cement and Concrete Research, 2019(115): 8-19. Journal rank: 1/91 in Construction & Building Technology

(4)     QH Huang, ZL Jiang, XL Gu, WP Zhang, BH Guo. Numerical simulation of moisture transport in concrete based on a pore size distribution model, Cement and Concrete Research, 2015(67): 31-43. Journal rank: 1/91 in Construction & Building Technology

(5)     ZL Jiang, S Hong, CQ Fu, Q Li, K Tang, WJ Yan. Effect of NaCl solution wet-dry cycles on pore structure and oxygen diffusivity of axial tensile fatigue damaged concrete, Journal of Building Engineering, 2024(86): 108881.

(6)     ZL Jiang, Y Pan, L Wan-Wendner, C Fu, Y Wang, W Long. Effects of pore structure and chloride binding capacity on chloride diffusion in limestone cement paste, Construction and Building Materials, 2024(435): 136854.

(7)     ZL Jiang, YJ Pan, CQ Fu, WW Li, YC Wang, WJ Long. Three-dimensional pore structure characterization of cement paste by X-ray computed tomography (XCT) and focused ion beam/scanning electron microscopy (FIB/SEM), Construction and Building Materials, 2023(383): 131379.

(8)     ZL Jiang, ZW Qian, XL Gu, JH Zhu, WJ Long, F Xing. Statistical analysis of chloride concentration distribution in concrete by a meso-scale model considering irregular shape aggregates, Construction and Building Materials, 2022(319): 126143.

(9)     ZL Jiang, S Li, C Fu, Z Dong, X Zhang, N Jin, T Xia. Macrocell corrosion of steel in concrete under carbonation, internal chloride admixing and accelerated chloride penetration conditions. Materials. 2021, 14(24):7691.

(10)  ZL Jiang, XL Gu, QH Huang, WP Zhang. Statistical analysis of concrete carbonation depths considering different coarse aggregate shapes, Construction and Building Materials, 2019(229): 116856.

(11)  ZL Jiang, YP Xi, XL Gu, QH Huang, WP Zhang. Mesoscopic prediction of cement mortar diffusivity by analytical and numerical methods. Journal of Materials in Civil Engineering, 2017, 29(4): 04016256.

(12)  ZL Jiang, QH Huang, YP Xi, XL Gu, WP Zhang. Experimental study of diffusivity of the interfacial transition zone between cement paste and aggregate. Journal of Materials in Civil Engineering, 2016, 28(10): 04016109.

(13)  ZL Jiang, XL Gu, QH Huang, WP Zhang. Reply to the discussion by Q. Zeng and S.L. Xu of the paper “Numerical simulation of moisture transport in concrete based on a pore size distribution model”, Cement and Concrete Research, 2015(73).

(14)  QH Huang, ZL Jiang, WP Zhang, XL Gu, XJ Dou. Numerical analysis of the effect of coarse aggregate distribution on concrete carbonation, Construction and Building Materials, 37(2012): 27-35.

(15)  Q Li, ZL Gao, T Yang, Z Dong, ZL Jiang(Corresponding author), Q He, CQ Fu. Rust distribution of non-uniform steel corrosion induced by impressed current method. Materials, 2022, 15(12): 4276.

(16)  R. Yu, E. Ma, L. Fan, J. Liu, B. Cheng, ZL Jiang(Corresponding author). Effects of different building materials and treatments on sound field characteristics of the concert hall. Buildings, 2022, 12(10): 1613.

(17)  B Li, ZL Jiang(Corresponding author), NG Jin, Y Tian, XY Jin. Carbonation process simulation for cement-based materials based on microstructure by a cement hydration model. Construction and Building Materials, 2020(259): 120429.

(18)  WW Li, ZL Jiang(Corresponding author), MY Lu, WJ Long, F Xing, J Liu. Effects of seawater, NaCl, and Na₂SO₄ solution mixing on hydration process of cement paste. Journal of Materials in Civil Engineering, 2020, 33(5): 04021057.

(19)  WW Li, ZL Jiang(Corresponding author), YQ Fang, NR Zhan, WJ Long, F Xing. Chloride-induced corrosion behavior of reinforced cement mortar with MWCNTs. Science and Engineering of Composite Materials, 2020(27): 281-289.

(20)  J Liu, ZL Jiang(Corresponding author), YL Zhao, H Zhou, XD Wang, et al. Chloride distribution and steel corrosion in a concrete bridge after long-term exposure to natural marine environment. Materials, 2020, 13(17), 3900.

(21)  Z. Li, R. An, W. Zhang, X. Fan, H. Jin, J. Liu, ZL Jiang, et al. Investigating the effects of seawater and sea sand aggregates and supplementary cementitious materials on the early shrinkage and crack resistance of concrete. Construction and Building Materials, 2023(392): 131719.

(22)  J Liu, JY Liu, H. Song, X. Fan, ZL Jiang, et al. Evaluation of the pore characteristics and microstructures of concrete with fly ash, limestone-calcined clay, seawater, and sea sand. Arabian Journal for Science and Engineering, 2022, 47(10): 13603-13622.

(23)  J Liu, R An, ZL Jiang, HS Jin, JH Zhu, et al. Effects of w/b ratio, fly ash, limestone calcined clay, seawater and sea-sand on workability, mechanical properties, drying shrinkage behavior and micro-structural characteristics of concrete. Construction and Building Materials, 2022(321): 126333.

(24)  J Liu, C. Liao, H. Jin, ZL Jiang, R. Xie, LP Tang. Electrically driven ionic transport in the RCM and RIM: Investigations based on experiments and numerical simulations. Construction and Building Materials, 2022(331): 127331.

(25)  HS Jin, JY Liu, ZL Jiang, H Zhou, J Liu. Influence of the rainfall intensity on the chloride ion distribution in concrete with different levels of initial water saturation. Construction and Building Materials. 2021, 281: 122561.

(26)  J Liu, CY Liao, HS Jin, ZL Jiang, DJ Zhong, LP Tang. Numerical model of the effect of water vapor environment on the chloride transport in concrete. Construction and Building Materials, 2021, 311: 125330.

(27)  WJ Long, JK Peng, YC Gu, ZL Jiang, LP Tang, F Xing. Durability of Slag Cement Paste Containing Polyaluminum Chloride. Journal of Materials in Civil Engineering ASCE, 2021, 33(9), 04021235.

(28)  J Liu, CY Liao, HS Jin, ZL Jiang, H Zhou. Numerical and experimental research on the effect of rainfall on the transporting behavior of chloride ions in concrete. Construction and Building Materials, 2021, 302, 124160.

软件著作权

黄庆华，蒋志律，顾祥林，张伟平. 细观尺度上混凝土碳化深度预测软件，2017/12，中国，2017SR686285.

专利

蒋志律，洪思凡，潘英杰，付传清. 基于多尺度孔隙图像的水泥基材料氯离子扩散预测方法，2025/12，中国，ZL202310839660.8

刘军，安然，蒋志律，朱继华，刑锋. 一种海水海砂混凝土及其配合比例设计方法与制备方法，2022/11，中国，ZL202210275584.8