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个人简介

张志刚,男,山东省聊城人。博士,副教授,博士生导师。2016年于东南大学获得博士学位,2013.09-2015.09在美国密歇根大学学习交流两年,师从于ECC材料(一种可弯曲的混凝土)发明人Victor C. Li教授;主要研究方向为高延性水泥基复合材料(ECC)基于微观力学理论的多尺度设计及其在基础设施中的应用研究。目前已在高水平国际会议和杂志上公开发表论文近40余篇,其中30余篇被SCI收录;授权国家发明专利1项;曾2次获得博士研究生国家奖学金,主持完成江苏省科研创新计划项目2项,参与了国家自然科学基金项目4项,目前作为 负责人 主持承担 2 项国家自然科学基金项目;2 项省部级项目;2 项土木行业内重点实验室开放课题。
教育背景及工作经历:
2020.09至今            重庆大学          土木工程学院         副教授、博士生导师
2016.09-2020.08        重庆大学          土木工程学院         讲师
2019.04-2020.03      沙迦美国大学        土木工程学院         博士后研究员
2018.02-2019.02    新加坡南洋理工大学    土木与环境工程学院   博士后研究员
2010.09-2016.06        东南大学          交通运输工程         硕博连读
2013.09-2015.09     美国密歇根大学       土木与环境工程学院   联合培养博士生
2006.09-2010.07       重庆交通大学         土木工程             本科


研究方向
(1) 高性能材料与新型组合结构;
(2) 高延性水泥基复合材料(ECC)的多尺度设计;
(3) 新型钢桥面铺装体系;
(4) 新型桥梁与路面材料及其应用技术;
(5) 新型桥梁与路面结构组成设计新技术;

主讲课程
《桥梁结构新技术》《水泥混凝土结构与性能》《道路勘测设计》《道路安全理论与工程》

学术兼职
1. SCI 学术期刊 Advances in Civil Engineering 编委;
2. SCI 学术期刊 Energies 编委;
3. SCI 学术期刊 Advances in Civil Engineering 客座主编;
4. 爱沙尼亚国家科学基金通讯评审专家;
5. 担任学术期刊审稿人:
Cement and Concrete Research; Cement & Concrete Composites; Composites: Part B-Engineering; Materials and Design; Construction and Building Materials; Journal of Cleaner Production; Smart Materials and Structures; Materials Characterizations; Biotechnology Journal; Journal of Materials in Civil Engineering; International Journal of Pavement Engineering; Journal of Composite Structures; Canadian Journal of Civil Engineering; Computers and Concrete; Journal of Renewable Materials.等
建筑材料学报;复合材料学报;工程力学;材料导报;重庆大学学报;土木与环境工程学报等;

主要成果
主持的科研项目:
1. 2021-2024, 高强ECC受火(高温)后的残余力学性能、爆裂机理及其改善措施, 国家自然科学基金(面上)项目
2. 2020-2023, 高延性地聚合物火灾(高温)后的力学性能及劣化机理,重庆市自然科学基金(面上)项目
3. 2018-2020, 无缝机场道面用高延性水泥基材料(ECC)的自愈合行为与机理研究,国家自然科学基金(青年)项目
4. 2019-2021, 高延性ECC机场道面加铺层的抗反射裂缝行为与机理研究,重庆市教委科学技术研究计划项目
5. 2018-2019, 高延性水泥基复合材料(ECC)的自愈合行为与机理研究,东南大学混凝土及预应力混凝土结构教育部重点实验室开放课题
6. 2018-2019, 高延性水泥路面的抗反射裂缝行为与机理研究,道路结构与材料交通行业重点实验室(北京)开放课题
学术论文
(Journals)  (*corresponding author)
[1]Zhang Z, Liu S, Yang F, Weng Y, Qian S. Sustainable high strength, high ductility engineered cementitious composites (ECC) with substitution of cement by rice husk ash. Journal of Cleaner Production. 2021, 317:128379.
[2]Zhang Zhigang*, Yang F, Liu J, Wang SP. Eco-friendly high strength, high ductility engineered cementitious composites (ECC) with substitution of fly ash by rice husk ash. Cement & Concrete Research, 2020,137: 106200.
[3]Qin FJ, Zhang Zhigang*, Yin ZW, Di J, et al. Use of high strength, high ductility engineered cementitious composites (ECC) to enhance the flexural performance of reinforced concrete beam. Journal of Building Engineering. 2020,32:101746.
[4]Zhang Zhigang, Qin FJ, Ma H, Xu LJ. Tailoring an impact resistant engineered cementitious composite (ECC) by incorporation of crumb rubber. Construction and Building materials,2020.262:120116.
[5]Liu J, Zhang Zhigang*. A Machine Learning Approach to Predict Explosive Spalling of Heated Concrete. Archives of Civil and Mechanical Engineering, 2020,20(4):134.
[6]Zhang Zhigang, Liu JC, Xu X, Yuan LQ. Effect of sub-elevated temperature on mechanical properties of ECC with different fly ash contents. Construction and Building materials, 2020,262:120096.
[7]Zhang Zhigang, Xu, X. Static and Fatigue Behavior of Rubber-Sleeved Stud Shear Connectors as Part of Field-Cast Ultra-High Performance Concrete Connections.Materials.2020,13:2269.
[8]Liu J, Zhang Zhigang*. Neural network models to predict explosive spalling of PP fiber reinforced concrete under heating. Journal of Building Engineering.2020,32:101472.
[9]Xu, X., Zhang Zhigang*, Hu Y, Wang X. Bearing Strength of Crumb Rubber Concrete under Partial Area Loading. Materials,2020,13(11):2446.
[10]Liu J, Zhang Zhigang*. Prediction of Explosive Spalling of Heated Steel Fiber Reinforced Concrete using Artificial Neural Networks. Journal of Advanced Concrete Technology. 2020,18(5):227-240.
[11]Ma H, Zhang Zhigang*. Paving an engineered cementitious composite (ECC) overlay on concrete airfield pavement for reflective cracking resistance, Construction and Building materials, 2020,252:119048.
[12]Zhang Zhigang, Weng YW, Ding YZ, Qian Shunzhi. Use of genetically modified bacteria to repair cracks in concrete, Materials,2019,12(23):3912.
[13]Ma H, Zhang Zhigang*, Zhao X, Wu S. A comparative life cycle assessment (LCA) of warm mix asphalt (WMA) and hot mix asphalt (HMA) pavement: a case study in China, Advances in Civil Engineering, 2019,Volume 2019, Article ID 9391857.
[14]Zhang Zhigang*, Zhang Qian, Victor C. Li. Multiple-scale Investigations on Self-healing Induced Mechanical Property Recovery of ECC, Cement & Concrete Composites,2019,103: 293-302.    
[15]Zhang Zhigang*, Hu Jing, Ma Hui. Feasibility study of ECC with self-healing capacity applied on long-span steel bridge deck overlay, International Journal of Pavement Engineering, 2019,20(8):884-893.    
[16]Zhang Zhigang, Yuvaraj Ananya, Di Jin, Qian Shunzhi. Matrix design of light weight, high strength, high ductility ECC, Construction and Building materials, 2019,210:188-197.  
[17]Wang YC, Zhang Zhigang*, Yu JT, et al. Using Green Supplementary Materials to Achieve More Ductile ECC, Materials,2019,12(6):858.    
[18]Zhang Zhigang, Ding Yuanzhao, Qian Shunzhi. Influence of bacterial incorporation on mechanical properties of engineered cementitious composites (ECC), Construction and Building materials, 2019,196:195-203.
[19]Ma Hui, Zhang Zhigang*, Ding Bei, Tu Xi, Investigation on the adhesive characteristics of Engineered Cementitious Composites (ECC) to steel bridge deck, Construction and Building Materials, 2018,191:679-691.
[20]Zhang Zhigang*, Zhang Qian, Matrix Tailoring of Engineered Cementitious Composites (ECC) with non-oil-coated, low tensile strength PVA fiber, Construction and Building materials, 2018,161:420-431.
[21]Zhang Zhigang*, Zhang Qian, Self-healing ability of Engineered Cementitious Composites (ECC) under different exposure environments, Construction and Building materials, 2017, 156:142-151.
[22]Zhang Zhigang, Qian Shunzhi., Liu Hezhi, Victor C. Li., Ductile concrete material with self-healing capacity for jointless concrete pavement use, Transportation Research Record,2017,2640(1):78-83.
[23]Zhang Zhigang, Ma Hui, Qian Shunzhi., Investigation on properties of ECC incorporating crumb rubber of different sizes, Journal of Advanced Concrete Technology, 2015,31(5): 241-251.  
[24]Zhang Zhigang, Zhang Qian, Qian Shunzhi., Victor C. Li. Low E-Modulus Early Strength Engineered Cementitious Composites Material: Development for Ultrathin Whitetopping Overlay, Transportation Research Record, 2015,2481(1):41-47.  
[25]Zhang Zhigang, Qian, S.Z., Ma Hui. Investigating Mechanical Properties and Self-healing Behavior of Micro-cracked ECC with Different Volume of Fly Ash, Construction and Building Materials, 2014,52:17-23.  
[26]Qin FJ, Zhang Zhigang, Xie B, Sun R. Eexperimental study on damage detection of ECC-concrete composite beams using piezoelectric transducers, Sensors, 2019,19(12):2799.
[27]Qian, S.Z., and Zhang Zhigang, Comparison of Tensile Properties of Strain Hardening Cementitious Composite Cured in Normal and Accelerated Conditions, ASTM Journal of Testing and Evaluation, 2012,40(5):778-783.
[28]徐梁晋,王义博,张志刚*,等.“预制 ECC 管混凝土桥墩拟静力试验研究”,工程力学,38(5):229-238.
[29]张志刚, 尹志伟, 秦凤江. “低模量早强型高延性混凝土的力学行为”,建筑材料学报,2019,22(5):707-713.  (EI)
[30]张志刚, 赵林, 张沛, 等. “亚高温下不同粉煤灰掺量高延性混凝土的力学性能”, 东南大学学报(自然科学版), 2020, (05): 831-836.(EI)
[31]张志刚, 张仁毅, 张 沛,等. “可自修复的高延性混凝土(ECC)在机场道面的适用性研究”, 重庆大学学报, 2021,44(1):97-105. (CSCD)

获奖情况
曾获中国留学基金委员会公派出国奖学金;
曾两次获得博士生国家奖学金;

研究生培养
-招收 桥梁工程、结构工程 与 道路工程 专业博士与硕士研究生;
欢迎有土木工程专业或材料专业相关背景的考生报考。

联系方式
Email:zhangzg@cqu.edu.cn
电话:15851812636