S M Faisal Mahmood

Email: smfm@ce.buet.ac.bd
PABX No:
Room No: 657
Personal web page

Dr. S. M. Faisal Mahmood

Assistant Professor
DEPARTMENT OF CIVIL ENGINEERING

Specialization: Structural Engineering

Education:

  • PhD, The University of New South Wales (UNSW), Sydney, Australia, 2020
  • MPhil, The University of Melbourne, Australia, 2012
  • BSc in Civil Engineering, BUET, Dhaka, Bangladesh, 2009

Research Interest:

  • Steel Fibre Reinforced Concrete (SFRC)
  • Fibre Reinforced Concrete (FRC)
  • Concrete Structures
  • Bridge Structures.

Selected Publications:

  1. [No info available]

Journal Papers:

  1. Mahmood, S. M. F., Akter, T., Foster, S., & Valipour, H. (2024). Minimum tensile reinforcement ratio for conventionally reinforced-SFRC beams and slabs. Structures, 63, 106320. https://doi.org/10.1016/j.istruc.2024.106320. Quartile: Q1, Impact Factor: 4.1.
  2. Cakiroglu, C., Shahjalal, M., Islam, K., Mahmood, S. M. F., Billah, A.H.M. M. & Nehdi, M. L. (2023). Explainable ensemble learning data-driven modeling of mechanical properties of fiber-reinforced rubberized recycled aggregate concrete. Journal of Building Engineering, 76, 107279. https://doi.org/10.1016/j.jobe.2023.107279. Quartile: Q1, Impact Factor: 6.4.
  3. Mahmood, S. M. F., Foster, S. J., & Valipour, H. (2021). Moment redistribution and post-peak behaviour of lightly reinforced-SFRC continuous slabs. Engineering Structures, 232, 111834. https://doi.org/10.1016/j.engstruct.2020.111834. Quartile: Q1, Impact Factor: 5.5.
  4. Mahmood, S. M. F., Agarwal, A., Foster, S. J., & Valipour, H. (2018). Flexural performance of steel fibre reinforced concrete beams designed for moment redistribution. Engineering Structures, 177, 695–706. https://doi.org/10.1016/j.engstruct.2018.10.007. Quartile: Q1, Impact Factor: 5.5.
  5. Mahmood, S. M. F., Haritos, N., Gad, E., & Zhang, L. (2014). A multi-reference-based mode selection approach for the implementation of NExT-ERA in modal-based damage detection. Structural Control and Health Monitoring, 21(8), 1137–1153. https://doi.org/10.1002/stc.1638. Quartile: Q1, Impact Factor: 6.1.

Conference Proceedings:

  1. Hasan, M. S., Karmokar, J. & Mahmood, S. M. F. (2023). Strength and workability of concrete incorporating volcanic ash as a partial replacement for cement. Proceedings of the 2nd International Conference on Advances in Civil Infrastructure and Construction Materials, Dhaka, Bangladesh, 26-28 July 2023, p174.
  2. Islam, M. T., Islam, R., Sohan, M. H., & Mahmood, S. M. F. (2023). Strength and workability of normal strength concrete with increasing amounts of fine aggregate for different water-cement ratios. Proceedings of the 2nd International Conference on Advances in Civil Infrastructure and Construction Materials, Dhaka, Bangladesh, 26-28 July 2023, p142.
  3. Ahsan, K. A., Islam, K., Mahmood, S. M. F., Ahmed, F. B., & Anik, M. F. R. (2023). Revisiting the shear design provisions for FRP-RC deep beams without stirrups. Proceedings of the 2nd International Conference on Advances in Civil Infrastructure and Construction Materials, Dhaka, Bangladesh, 26-28 July 2023, p129.
  4. Anik, M. F. R., Islam, K., Mahmood, S. M. F., & Ahsan, K. A. (2023). Lateral cyclic response of SMA-based hybrid steel bridge piers: a parametric study. Proceedings of the 2nd International Conference on Advances in Civil Infrastructure and Construction Materials, Dhaka, Bangladesh, 26-28 July 2023, p120.
  5. Akter, T., Rabbi, M. M. H., & Mahmood, S. M. F. (2022). Development of minimum tensile reinforcement ratio relationship for steel fiber reinforced-reinforced concrete flexural members. Proceedings of the 5th Annual Paper Meet & 2nd Civil Engineering Congress, Dhaka, Bangladesh, 29-30 July 2022, 278-284.
  6. Bassar, A. S. M. N., Siam, M. S., Alam, M. T., & Mahmood, S. M. F. (2022). Effect of the amount of fine aggregates on the strength and workability of normal strength concrete. Proceedings of the 5th Annual Paper Meet & 2nd Civil Engineering Congress, Dhaka, Bangladesh, 29-30 July 2022, 171-176.
  7. Mahmood, S. M. F. (2019). Low ductility with steel fibres: Post-Peak Behaviour of Reinforced-SFRC Slabs. Proceedings of the UNSW Engineering Postgraduate Research Symposium 2019, Sydney, Australia, 9 – 10 December, p.FE15.
  8. Mahmood, S. M. F., Foster, S. J., & Valipour, H. (2018). Nonlinear FE analysis of steel fibre reinforced concrete continuous beams. Proceedings for the 2018 Fib Congress in Melbourne, Australia, 7-11 October, 708–715.
  9. Mahmood, S. M. F. (2018). Bridging cracks with steel fibres: An investigation of the flexural performance of steel fibre reinforced concrete beams. Proceedings of the UNSW Engineering Postgraduate Research Symposium 2018, Sydney, Australia, 26 – 27 September, p.FE21.
  10. Mahmood, S. M. F. (2011). State-space model identification for modal-based damage detection. 2011 Infrastructure Engineering Postgraduate Conference, Melbourne, Australia.
  11. Alam, M. S., Mahmood, S. M. F., Dhar, A. S., & Turan, A. (2010). Horizontal impedance functions for circular foundations on layered soil media. Proceedings, 3rd International Earthquake Symposium, Bangladesh, Dhaka, 5-6 March, 173–180.