职称:副教授
学位:博士
研究领域:建筑固废资源化利用
大流态轻骨料混凝土及其泵送
纤维增强水泥基复合材料(ECC)
水泥基材料收缩调控与开裂控制
办公地点:广州大学(大学城)工程北楼318
电子邮箱:wangq@gzhu.edu.cn
个人简介
出生于1989年7月,江西上饶人,中共党员,硕士生导师。博士毕业于清华大学土木工程系,现任广州大学土木工程学院材料所党支部书记,长期致力于固废建材转化、轻骨料混凝土、水泥基材料增强增韧、收缩调控与裂缝控制。担任中国建筑学会工程诊治与运维分会理事,中国硅酸盐学会水泥与混凝土制品分会高性能混凝土委员会委员,广东省土木建筑学会建筑材料专业委员会委员。主持国家自然科学基金面上项目等课题十余项,以第一或通讯作者发表SCI论文三十余篇,担任《Cement & Concrete Composites》、《Composite Part B: Engineering》、《Construction and Building Materials》、《Journal of Building Engineering》等SCI期刊审稿人。
教育背景
2018年毕业于清华大学土木工程专业,获工学博士学位
2014年毕业于北京建筑大学结构工程专业,获工学硕士学位
2011年毕业于同济大学土木工程专业,获工学学士学位
工作经历
2018年5月至今 广州大学 土木工程学院
主讲课程
1.土木工程材料
2.工程技术经济
3.工程材料
4.工程估价
科研项目:
1.国家自然科学基金项目面上项目(52370132),建筑固废高效资源化及其全生命周期评价,2024/01-2027/12,项目主持人;
2. 国家自然科学基金项目青年项目(52008120),荷载耦合作用下高强ECC开裂机制及其收缩调控方法,2021/01-2023/12,项目主持人;
3. 国家自然科学基金项目重点项目(52338005),高性能海洋基础设施支撑结构新体系与设计方法,2024/01-2028/12,核心成员;
4. 广州市基础与应用基础研究项目(202002030166),高性能水泥基复合材料收缩调控与开裂机理研究,2020/04-2023/03,项目主持人;
5. 广东省自然科学基金面上项目(2023A1515011624),大流态页岩陶粒混凝土可泵性及收缩调控研究,2023/01-2025/12,项目主持人;
6. 国家自然科学基金项目面上项目(52278163),考虑材料内部结构演变及膨胀效应的圆钢管钢渣混凝土构件轴压本构理论,2023/01-2026/12,核心成员;
7. 国家自然科学基金项目面上项目(52178125),FRP-钢-混凝土组合结构新型梁柱节点的设计方法研究,2022/01-2025/12,核心成员;
8. 国家自然科学基金项目面上项目(52078147),基于湿法规程密度理论的被动约束新型混凝土本构模型,2021/01-2024/12,核心成员;
9. 国家自然科学基金项目面上项目(51678342),现代混凝土自身与干燥收缩调控方法与机理,2017/01-2020/12,核心成员;
10. 技术服务项目(2021095),装配式构件用自密实混凝土研究,2020/10-2022/03,项目主持人;
11. 国家重点实验室开放基金项目(JZA2018KJ01),超高性能砂浆混凝土增强增韧机制及其组合构件接缝免裂研究,2019/03-2020/12,项目主持人。
SCI论文:
1. Wang Q, Zhang J*, Fan J, Zheng X. Cracking load of high strength ECC-steel composite bridge deck with impact of shrinkage stress—Test and simulation. Engineering Fracture Mechanics. 2018;202:174-201.
2. Wang Q, Pan C, Liang YH, Gan W*, Johnny Ho. Pumping lightweight aggregate concrete into high-rise buildings. Journal of Building Engineering. 2023, 80:108069.
3. Wang Q, Xiong Z, Zhang J, Fang Z*, Lai M, Ho J. Impact of polyvinyl alcohol fiber on the full life-cycle shrinkage of cementitious composite. Journal of Building Engineering. 2023;63.
4. Lai MH, Zou J, Yao B, Ho JCM, Zhuang X, Wang Q*. Improving mechanical behavior and microstructure of concrete by using BOF steel slag aggregate. Construction and Building Materials. 2021;277.
5. Wang Q*, He J, Sun J, Ho J. Determining the specific surface area of coarse aggregate based on sieving curve via image-analysis approach. Construction and Building Materials. 2021;305.
6. Ren F, Mo J, Wang Q*, Ho JCM. Crumb rubber as partial replacement for fine aggregate in concrete: An overview. Construction and Building Materials. 2022;343.
7. Wang Q, Yao B, He J, He X, Ho JCM*. Impact of condensed silica fume on splitting tensile strength and brittleness of high strength self‐compacting concrete. Structural Concrete. 2021.
8. Liang Y, Wang Q*, Gan W*, Liao J, Lai M, Ho J. A 14-year study on ceramic waste slag-based lightweight aggregate concrete. Construction and Building Materials. 2022;330.
9 Wang Q, Huang W, Sun J*, Zhang J. Shrinkage of high-strength engineered cementitious composite with zeolite particles as internal curing agent. Advances in Cement Research. 2023:1-10.
10. Wang Q, Zhang J, Ho JCM*. Zeolite to improve strength-shrinkage performance of high-strength engineered cementitious composite. Construction and Building Materials. 2020;234:117335.
11. Wang Q, Huang W, Liang Y, Li C*, Lai M, Sun J*. Eco-Sustainable Magnesium Oxychloride Cement Pastes Containing Waste Ammonia Soda Residue and Fly Ash. Materials. 2022;15(17).
12. Wang Q, Xiong Z, He J*, Lai M, Ho J. Effective solution for improving rheological properties of cement paste containing zeolite. Construction and Building Materials. 2022;351.
13. Zhang J*, Wang Q, Zhang J. Shrinkage of internal cured high strength engineered cementitious composite with pre-wetted sand-like zeolite. Construction and Building Materials. 2017;134:664-72.
14. Wang Q, Zhou Y, Lai M, Gu M*, Ho JCM. Carbon fiber to improve the resistance of high strength PVA-ECC to elevated temperatures. Journal of Building Engineering. 2023;71.
15. Wang Q, Zhou Y, Huang L, Lai M*, Ho J. Thermal resistance of high strength PVA fiber reinforced engineered cementitious composites containing basalt fiber. Materials Letters. 2023;350.
16. Wang Q*, Yao B, Lu R. Behavior Deterioration and Microstructure Change of Polyvinyl Alcohol Fiber-Reinforced Cementitious Composite (PVA-ECC) after Exposure to Elevated Temperatures. Materials. 2020;13(23).
17. Li C, Wang Q*, Chen J, Jia S, Jiang L, He J. Effect of polyether-type SRA on the drying shrinkage, pore structure and properties of blended mortar incorporating limestone powder. Construction and Building Materials. 2020;264:120173.
18. Sun J, Xu S, Lu G*, Ruan D, Wang Q*. Mechanical response of fibre metal laminates (FMLs) under low to intermediate strain rate tension. Composite Structures. 2023;305.
19. Huang W, Wang Q*, Ma Y, Lai M, Ho JCM. Mortar film thickness on the autogenous shrinkage of concrete: Test and simulation. Journal of Building Engineering. 2023;66.
20. Gu M, Cai X, Mo H, Wang Q*. Unconfined compressive behavior of column with geogrid-encased recycled aggregate: Test and simulation. Construction and Building Materials. 2023;400.
21. Fang Z, Wen T, Luo H, Zheng Z, Ding L, Yue S, Wang Q*. Investigation into microbial contamination in micro apartments in a coastal city. Sustainable Cities and Society. 2023;91.
22. Ren F, Zhang X, Lin M, Wang Q*, Sun J. Recycling Local Waste Glass Bottles into Cement Paste: Effect on Hydration, Microstructure, and CO2 Emission. Materials (Basel). 2023;16(18).
23. Mo J, Ren F, Tian S, Wang Q*, Ho JCM. Impact of crumb rubber particle size on the mechanical and microstructure properties of rubberized concrete. Structural Concrete. 2022;24(3):4077-92.
24. Sun J, Xu S, Lu G*, Wang Q*, Gong A. Ballistic impact experiments of titanium-based carbon-fibre/epoxy laminates. Thin-Walled Structures. 2022;179.
25. He J, Wang Q*, Yao B, Ho J. Mechanical properties of high strength POM-FRCC and its performance under elevated temperatures. Construction and Building Materials. 2021;290.
26. Zhang J*, Wang Q, Wang Z. Properties of Polyvinyl Alcohol-Steel Hybrid Fiber-Reinforced Composite with High-Strength Cement Matrix. Journal of Materials in Civil Engineering. 2017;29(7).
27. Liang Y, Wang Q*, Zhang C, Ho J. Impact of Limestone Powder on the Mechanical and Microstructure Properties of Magnesium Oxychloride Cement Pastes. Journal of Materials in Civil Engineering. 2022;34(9).
28. Wang Q, Lai MH, Zhang J, Wang Z, Ho JCM. Greener engineered cementitious composite (ECC) – The use of pozzolanic fillers and unoiled PVA fibers. Construction and Building Materials. 2020;247:118211.
29. He J, Wang Q*, Yao B, Ho J. Impact of Elevated Temperatures on the Performance of High-Strength Engineered Cementitious Composite. Journal of Materials in Civil Engineering. 2021;33(9).
30. Zhang J*, Wang Q, Wang Z. Optimizing design of high strength cement matrix with supplementary cementitious materials. Construction and Building Materials. 2016;120:123-36.
31. Zhou Y, Wang Q*, Lai M, Ho JCM. Steel Fiber to Improve Thermal Resistance of High Strength PVA-ECC after Exposure to Elevated Temperature. Journal of Advanced Concrete Technology. 2023;21(9):748-61.
32. Li C, Liang Y, Jiang L, Zhang C, Wang Q*. Characteristics of ammonia-soda residue and its reuse in magnesium oxychloride cement pastes. Construction and Building Materials. 2021;300:123981.
专利:
1. ZL201610371566.4 一种水泥基材料内养护剂及其制备和应用
2. ZL202020281063.X 一种钢管混凝土柱组合剪力墙
3. ZL202023233004.1 混凝土构件多轴膨胀收缩变形测量仪器
4. ZL202223264795.6 一种基于磁铁支座的螺栓球连接的辅助安装装置
5. ZL202320163445.6 一种可更换替芯的涂改带
6. ZL202210270341.5 一种连续粒径的级配橡胶粉混凝土及其制备方法
7. ZL202210271449.6 一种钢管约束改性级配橡胶混凝土柱及建造方法
标准:
1. 广东省标准DBJ/T 15-62-2021《陶粒混凝土技术规程》,参编
2. 广东省标准DBJ/T 15-43-2023《蒸压泡沫混凝土制品应用技术规程》,参编