基本情况

出生年月：1994.08

职称：特设副教授

最高学位：博士研究生

主要研究方向：智能建筑材料；超高性能混凝土

导师类别：学术型硕导/专业型硕导

工作单位：武汉理工大学材料科学与工程学院

工作地址：硅酸盐国家重点实验室水泥混凝土大楼427

Email: hhhuang@whut.edu.cn

教育及工作经历

2023.09-至今，武汉理工大学；材料科学与工程学院；助理研究员

2021.09-2023.08，武汉理工大学；材料科学与工程学院；助理研究员

2016.09-2021.07，哈尔滨工业大学；土木工程学院；获工学博士学位

2019.11-2020.11，美国密苏里科技大学；土木与环境系；联合培养

2012.09-2016.07，哈尔滨工业大学；土木工程学院；获工学学士学位

获奖情况

2023年 基于流变学基础理论的高耐久和功能混凝土设计方法，中国建筑材料流通协会科学技术奖一等奖

2021年 哈尔滨工业大学优秀学毕业生

近期主持科研项目

2023-2025，建筑皮肤设计制备及其性能研究，国家自然科学基金青年

2023-2025，智能骨料制备技术及其应用研究，企业委托

2023-2024，智能ELS骨料的关键技术研究，企业委托

近期代表性学术成果

1. H. Huang, L. Teng, X. Gao, et al. Effect of carbon nanotube and graphite nanoplatelet on composition, structure, and nano-mechanical properties of C-S-H in UHPC. Cement and Concrete Research, 2022, 154, 106713.

2. H. Huang, L. Teng, K.H. Khayat, et al. For the improvement of mechanical and microstructural properties of UHPC with fiber alignment using carbon nanotube and graphite nanoplatelet. Cement and Concrete Composites, 2022, 129, 104462.

3. H. Huang, L. Teng, X. Gao, et al. Use of saturated lightweight sand to improve the mechanical and microstructural properties of UHPC with fiber alignment. Cement and Concrete Composites, 2022, 129: 104513.

4. H. Huang, X. Zhou, F. Wang, et al. Influence of carbon black and carbon nanotube on mechanical and piezoelectric properties of γ–C2S–PZT composite. Ceramics International, 2022, 48, 22411-22418.

5. H. Huang, X. Gao, K.H. Khayat. Contribution of fiber alignment on flexural properties of UHPC and prediction using the Composite Theory. Cement and Concrete Composites, 2021, 118: 103971.

6. H. Huang, X. Gao, K.H. Khayat. Contribution of fiber orientation to enhancing dynamic properties of UHPC under impact loading. Cement and Concrete Composites, 2021, 121: 104108.

7. H. Huang, R. Wang, X. Gao. Improvement effect of fiber alignment on resistance to elevated temperature of ultra-high performance concrete. Composites Part B: Engineering, 2019, 177: 107454.

8. H. Huang, X. Ren, Z. Liu, et al. Development of low-carbon and cost-effective ultra-high performance concrete using carbonated recycled fine aggregate. Construction and Building Materials, 2023, 399, 132575.

9. H. Huang, C. Lv, Z. Liu, et al. Development of industrial-grade γ-C2S binder from limestone and sandstone: Preparation, properties, and microstructure. Construction and Building Materials, 2024, 411, 134486.

10. H. Huang, X. Gao, K.H. Khayat, et al. Influence of fiber alignment and length on flexural properties of UHPC. Construction and Building Materials, 2021, 290: 122863.

11. H. Huang, X. Gao. Fiber alignment and its effect on mechanical properties of UHPC: an overview. Construction and Building Materials, 2021, 296: 123741.

12. H. Huang, X. Gao, Y. Li, et al. SPH simulation and experimental investigation of fiber orientation in UHPC beams with different placements. Construction and Building Materials, 2020, 233: 117372.

13. H. Huang, A. Su, X. Gao, et al. Influence of formwork wall effect on fiber orientation of UHPC with two casting methods. Construction and Building Materials, 2019, 215: 310-320.

14. H. Huang, X. Gao, A. Zhang. Numerical simulation and visualization of motion and orientation of steel fibers in UHPC under controlling flow condition. Construction and Building Materials, 2019, 199: 624-636.

15. H. Huang, X. Gao, D. Jia. Effects of rheological performance, anti-foaming admixture and mixing procedure on air bubbles and strength of UHPC. Journal of Materials in Civil Engineering, 2019, 31 (4): 04019016.

16. H. Huang, X. Gao, L. Li, et al. Improvement effect of steel fiber orientation control on mechanical performance of UHPC. Construction and Building Materials, 2018, 188: 709-721.