姓名：QAMAR SHAHZAD

职称：博士后

电子邮件：qamarshahzad@tongji.edu.cn; chqamarshahzad58@hotmail.com

合作导师：李方元教授

研究领域：3D混凝土打印

主要学历:

• 2021.09-2025.05同济大学土木工程学院，博士

• 2017.09-2020.06 动力工程及工程热物理，山东大学，硕士学位

• 2012.09-2016.06 School of Mechanical Engineering, University of Engineering & Technology, Lahore, Punjab, 巴基斯坦，学士学位

任职经历：

• 2025.08-现在同济大学，博士后

期刊发表：

1. Hu, X., Shahzad, Q., & Li, F. Y.* (2025). Influence of the shear span ratio on the shear performance of 3D-printed concrete beams without web reinforcement. Structures, 76, 109023.

2. Shahzad, Q., & Li, F. Y.* (2025). Interfacial bond effects on the shear strength and damage in 3D-printed concrete structures: A combined experimental and numerical study. Engineering Fracture Mechanics, 315, 110840.

3. Shahzad, Q., & Li, F. Y.* (2025). Assessing the load-bearing capacity of 3D-printed concrete at early ages: An innovative approach. International Journal of Civil Engineering, 23(3), 521–537.

4. Shahzad, Q., Akbar, M., & Yusri, A. M. (2025). Time-dependent buildability evaluation of 3D-printed concrete: Experimental validation and numerical simulation. Journal of Sustainable Cement-Based Materials, 14(3), 431–445.

5. Wang, H., Shen, J., Shahzad, Q. (2025). Performance optimization of green mortar using graded ferrochrome slag and dune sand as aggregates. International Journal of Concrete Structures and Materials, 19(86).

6. Li, F. Y., Hu, X., & Shahzad, Q.* (2024). Anisotropic behaviour in 3D-printed concrete: Finite element simulation approach. Journal of Materials Engineering and Performance, 1–12.

7. Shahzad, Q., & Akbar, M.* (2024). Influence of print speed and nozzle diameter on the fibre alignment in 3D-printed ultra-high-performance concrete. Frontiers in Materials, 11, 1355647.

8. Shahzad, Q., & Li, F. Y.* (2023). An innovative method for buildability assessment of 3D-printed concrete at early ages. Construction and Building Materials, 403, 133167.

9. Shahzad, Q., & Li, F. Y.* (2023). The influence of print path on early-age plastic bearing capacity and mechanical behaviour of 3D-printed concrete: A novel approach for practical applications. Construction and Building Materials, 389, 131794.

10. Shahzad, Q.*, Umair, M., & Waqar, S. (2022). Bibliographic analysis on 3D printing in the building and construction industry: Printing systems, material properties, challenges, and future trends. Journal of Sustainable Construction Materials and Technologies, 7(3), 198–220.

11. Shahzad, Q.*, Shen, J. Y., & Naseem, R. (2021). Influence of phase change material on concrete behaviour for construction 3D printing. Construction and Building Materials, 309, 125121.

12. Shahzad, Q., Wang, X. J., & Wang, W.* (2020). Coordinated adjustment and optimization of setting time, flowability, and mechanical strength for construction 3D printing material derived from solid waste. Construction and Building Materials, 259, 119854.

13. Ren, C., Wang, W.*, & Shahzad, Q. (2020). Complementary utilization of solid wastes to prepare green materials and its role in CO₂ reduction. Journal of Cleaner Production, 252, 119840.