【基本信息】
张祖华 教授、博士生导师

电子邮箱：zhangzuhua@tongji.edu.cn

办公电话：15951154238

研究领域：低碳胶凝材料；固废安全利用；先进功能材料（耐火、耐蚀、抗菌）

办公地点：上海市曹安公路4800号，同济大学材料科学与工程学院

【个人简介】

致力于胶凝材料基础理论与工程应用关键技术的研究，在地聚合物原材料活性表征、微观结构调控和耐久性提升上获得了多项成果，发表高水平论文150余篇，国内外引用超10000次。欢迎有志于材料学和先进功能材料的本科生和研究生报考课题组的硕士、博士；对有理想有目标的博士和青年学者，长期开放博士后合作，并积极协助申请国内外项目。

【工作经历】

2013.12-2015.12 南昆士兰大学 研究员/讲师

2016.01-2016.12 南昆士兰大学 高级研究员/高级讲师

2017.01-2017.05 谢菲尔德大学 高级访问学者、澳大利亚“联邦奋进学者”

2017.05-2022.11 湖南大学教授、岳麓学者，博士生导师

2022.12-今  同济大学教授、博士生导师

【社会兼职】

中国混凝土和水泥制品协会混凝土矿物掺合料分会副理事长

中国硅酸盐学会固废分会冶金渣专委会副主任委员

《Composites Part B Engineering》副主编

《Frontiers in Materials – Structural Materials》副主编

中国工程院院刊 《Engineering》青年通讯专家

《Materials Today: Communications》编委

《建筑材料学报》、《硅酸盐通报》青年编委

【主持项目】

自然基金委 联合重点项目 海工地聚合物混凝土 (U100225) 2021-2024

自然基金委 面上项目 超高性能地聚合物 (51878263) 2019-2022

澳大利亚昆士兰州政府 Innovation Connection 2019-2020

湖南省科技厅 人才聚集项目 地聚合物耐腐蚀 (2017XK2017) 2017-2019

国家青年人才项目 2017-2020

澳大利亚研究理事会DECRA（优青项目）地聚物相控制（DE170101070）2017-2020

澳大利亚研究理事会Discovery Project 地聚物制备（DP160104149）2016-2019

澳大利亚研究理事会Linkage Project 地聚物原材料（LP130101016）2014-2017(完成人)

核废物与环境安全国防重点学科实验室项目 地聚合物处置核废 (14ZXNK01) 2016-2018

【授课情况】

胶凝材料学、土木工程材料等相关课程

【代表性成果】

专著：

刘红飞 张祖华 著《碱激发混凝土技术与工程应用》2022 中国电力出版社

书目章节：

1. Zuhua Zhang, Xiao Yao, Hao Wang (2016) Chapter 13. Alkali–activated cement (AAC) from fly ash and high magnesium nickel slag. In Handbook of low carbon concrete (Ali Nazari and Jay G. Sanjayan Ed.) Elsevier Inc. pp.357–374. ISBN: 9780128045244

2. Zhang Zuhua, Wang Hao (2014). Chapter 9. Analysing the relation between pore structure and permeability of alkali–activated concrete binders. In: Handbook of alkali–activated cements, mortars and concretes. Woodhead Publishing Series in Civil and Structural Engineering, 54. Woodhead Publishing Limited, Cambridge, United Kingdom, pp. 235–262. ISBN 978–1–78242–276–1.

3. Zhang Zuhua, Wang Hao (2014). Chapter 22. Alkali–activated cements for protective coating of OPC concrete. In: Handbook of alkali–activated cements, mortars and concretes. Woodhead Publishing Series in Civil and Structural Engineering, 54. Woodhead Publishing Limited, Cambridge, United Kingdom, pp. 605–624. ISBN 978–1–78242–276–1.

期刊论文：

[1] Yingcan Zhu, Marlon A. Longhi, Aiguo Wang, Dongshuai Hou, Hao Wang, Zuhua Zhang*. “Alkali leaching features of 3-year-old alkali activated fly ash-slag-silica fume : for a better understanding of stability.” Composites Part B 230 (2022)109469.

[2] Y Deng, Z Zhang*, C Shi, Z Wu, C Zhang. “Steel fiber–matrix interfacial bond in ultra-high performance concrete: A review.” Engineering, 2022.

[3] Y Wang, Y Cao, Z Zhang*, J Huang, P Zhang, Y Ma, H Wang*. “Study of acidic degradation of alkali-activated materials using synthetic C-(N)-ASH and NASH gels.” Composites Part B: Engineering 230 (2022) 109510.

[4] Y Zhu, Z Zheng, Y Deng, C Shi, Z Zhang*. “Advances in immobilization of radionuclide wastes by alkali activated cement and related materials.” Cement and Concrete Composites 126 (2022) 104377

[5] Y Cao, Y Wang, Z Zhang*, H Wang*. “Recycled sand from sandstone waste: A new source of high-quality fine aggregate.” Resources, Conservation and Recycling 179 (2022) 106116.

[6] Lili Xue, Zuhua Zhang*, Hao Wang*. “Early hydration kinetics and microstructure development of hybrid alkali activated cements (HAACs) at room temperature.” Cement and Concrete Composites 123 (2021) 104200.

[7] Márlon A. Longhi*, Zuhua Zhang*, Brant Walkley, Erich D.Rodríguez, Ana Paula Kirchheim, “Strategies for control and mitigation of efflorescence in metakaolin-based geopolymers” Cement and Concrete Research, 2021 (144) 106431.

[8] Cuifang Lu, Zuhua Zhang*, Caijun Shi*, Ning Li, Dengwu Jiao, Qiang Yuan. “Rheology of alkali-activated materials: A review” Cement and Concrete Composites 121 (2021) 104061.

[9] Liu, Yiwei, Caijun Shi*, Zuhua Zhang*, Ning Li, and Da Shi. "Mechanical and Fracture Properties of Ultra-High Performance Geopolymer Concrete: Effects of Steel Fiber and Silica Fume." Cement and Concrete Composites (2020) 103665

[10] Liu, Yiwei, Zuhua Zhang*, Caijun Shi*, Deju Zhu, Ning Li, and Yulin Deng. "Development of Ultra-High Performance Geopolymer Concrete (Uhpgc): Influence of Steel Fiber on Mechanical Properties." Cement and Concrete Composites (2020) 103670

[11] Z Zhang*, Y Zhu, H Zhu*, Y Zhang, JL Provis, H Wang, Effect of drying procedures on pore structure and phase evolution of alkali-activated cements, Cement and Concrete Composites 96 (2019) 194-203.

[12] Z Shi, C Shi*, S Wan, Z Zhang*, Effects of alkali dosage and silicate modulus on alkali-silica reaction in alkali-activated slag mortars. Cement and Concrete Research 111 (2018) 104-115

[13] Z Zhang*, JL Provis, X Ma, A Reid, H Wang*, Efflorescence and subflorescence induced microstructural and mechanical evolution in fly ash-based geopolymers. Cement and Concrete Composites 92 (2018) 165-177

[14] T Yang*, H Zhu, Z Zhang*, X Gao, C Zhang, Q Wu, Effect of fly ash microsphere on the rheology and microstructure of alkali-activated fly ash/slag pastes. Cement and Concrete Research 109 (2018) 198-207

[15] Zuhua Zhang*, JohnL.Provis, Jin Zou, Andrew Reid, HaoWang*, Toward an indexing approach to evaluate fly ashes for geopolymer manufacture, Cement and Concrete Research 85 (2016) 163–173.